Code readability

Transcript

1. Code Readability Munetoshi Ishikawa

2. Code readability session 1 Introduction and Principles

3. What readable code is - Obvious: isVisible rather than flag

   - Simple: isA && isB rather than !(!isA || !isB) && isB - Isolated: responsibility and dependency - Structured: format, members, interactions, and abstraction layer Introduction and Principles > Introduction

4. Why we need readable code Introduction and Principles > Introduction

5. Why we need readable code Sustainable development - To extend

   saturation curve of development Introduction and Principles > Introduction

6. Why we need readable code Sustainable development - To extend

   saturation curve of development Reading code > Writing code - Requesting code review from two or more engineers - Complicated bug fix with a few lines Introduction and Principles > Introduction

7. Optimize for sustainable development Focus on team productivity Introduction and

   Principles > Introduction

8. Optimize for sustainable development Focus on team productivity Your 5

   minutes could save 1 hour for others Add a comment, write test, refactor Introduction and Principles > Introduction

9. Optimize for sustainable development Focus on team productivity Your 5

   minutes could save 1 hour for others Add a comment, write test, refactor We may need to update personnel rating criteria Don't focus only on short-term speed to implement Introduction and Principles > Introduction

10. Prisoner's dilemma Team productivity may decrease if we focus on

    the personal Introduction and Principles > Introduction

11. Prisoner's dilemma Team productivity may decrease if we focus on

    the personal Eng. A ┃ │ ┃ Write clean code │ Write hacky code Eng. B ┃ │ ━━━━━━━━━━━━━━━━━━╋━━━━━━━━━━━━━━━━━━┿━━━━━━━━━━━━━━━━━━━ ┃ 8 │ 10 Write clean code ┃ │ ┃ 8 │ 1 ──────────────────╂──────────────────┼─────────────────── ┃ 1 │ 2 Write hacky code ┃ │ ┃ 10 │ 2 Introduction and Principles > Introduction

12. Learn how to write readable code Feature implementation itself is

    easy Special training is not required Introduction and Principles > Introduction

13. Learn how to write readable code Feature implementation itself is

    easy Special training is not required No learning, No readable code - Training, lectures - Peer code review - Self-education Introduction and Principles > Introduction

14. Contents of this lecture - Introduction and Principles - Natural

    language: Naming, Comments - Inner type structure: State, Procedure - Inter type structure: Dependency (two sessions) - Follow-up: Review Introduction and Principles > Introduction

15. Contents of this lecture - Introduction and Principles - Natural

    language: Naming, Comments - Inner type structure: State, Procedure - Inter type structure: Dependency (two sessions) - Follow-up: Review Introduction and Principles > Introduction

16. Topics - Introduction - The boy scout rule - YAGNI

    - KISS - Single responsibility principle - Premature optimization is the root of all evil Introduction and Principles > Principles

17. Topics - Introduction - The boy scout rule - YAGNI

    - KISS - Single responsibility principle - Premature optimization is the root of all evil Introduction and Principles > Principles

18. The boy scout rule Try to leave this world a

    little better than you found it... — Robert Baden-Powell Introduction and Principles > Principles > The boy scout rule

19. The boy scout rule Try to leave this world a

    little better than you found it... — Robert Baden-Powell Introduced to software development by Robert C. Martin1 Clean code whenever you have touched it 1 97 Things Every Programmer Should Know: Collective Wisdom from the Experts, Kevlin Henney, 2010 Introduction and Principles > Principles > The boy scout rule

20. Dos for the boy scout rule - Add: comments, tests

    - Remove: unnecessary dependencies, members, and conditions - Rename: types, functions, and values - Break: huge types, huge functions, nests, and call sequences - Structure: dependencies, abstraction layers, and type hierarchy Introduction and Principles > Principles > The boy scout rule

21. Don'ts for the boy scout rule 1/2 Don't add an

    element in a huge structure - Sentence in a huge method - Case in a huge conditional branch - Member in a huge type - Callback in a huge call sequence - Inheritance in a huge hierarchy Introduction and Principles > Principles > The boy scout rule

22. Don'ts for the boy scout rule 2/2 Don't add something

    without thought Introduction and Principles > Principles > The boy scout rule

23. Don'ts for the boy scout rule 2/2 Don't add something

    without thought Is the code location correct? - Consider restructuring before adding a conditional branch Introduction and Principles > Principles > The boy scout rule

24. Don'ts for the boy scout rule 2/2 Don't add something

    without thought Is the code location correct? - Consider restructuring before adding a conditional branch Can't you simplify? - Merge copied values or conditions - Look around where you want to change Introduction and Principles > Principles > The boy scout rule

25. Example of "don'ts" 1/2 Question: Is it fine to add

    a new type Z? val viewType: ViewType = ... // An enum type when (viewType) { A -> { view1.isVisible = true view2.text = "Case A" } B -> { view1.isVisible = false view2.text = "Case B" } ... Introduction and Principles > Principles > The boy scout rule

26. Example of "don'ts" 2/2 Answer: No Introduction and Principles >

    Principles > The boy scout rule

27. Example of "don'ts" 2/2 Answer: No Don't add a new

    condition if there are too many branches Introduction and Principles > Principles > The boy scout rule

28. Example of "don'ts" 2/2 Answer: No Don't add a new

    condition if there are too many branches Solution: Apply strategy pattern Introduction and Principles > Principles > The boy scout rule

29. Example of "dos" 1: Extract parameters as constructor parameters (or

    computed properties) enum class ViewType(val isView1Visible: Boolean, val view2Text: String) Introduction and Principles > Principles > The boy scout rule

30. Example of "dos" 1: Extract parameters as constructor parameters (or

    computed properties) enum class ViewType(val isView1Visible: Boolean, val view2Text: String) 2: Remove conditional branches with the parameters view1.isVisible = viewType.isView1Visible view2.text = viewType.view2Text Introduction and Principles > Principles > The boy scout rule

31. Example of "dos" 1: Extract parameters as constructor parameters (or

    computed properties) enum class ViewType(val isView1Visible: Boolean, val view2Text: String) 2: Remove conditional branches with the parameters view1.isVisible = viewType.isView1Visible view2.text = viewType.view2Text 3: Add a new type Z. Introduction and Principles > Principles > The boy scout rule

32. Topics - Introduction - The boy scout rule - YAGNI

    - KISS - Single responsibility principle - Premature optimization is the root of all evil Introduction and Principles > Principles

33. YAGNI You Aren't Gonna Need It = Implement it only

    when you need it - 90% of features for the future are not used2 - Keep structure simple = ready for unexpected change2 2 http://www.extremeprogramming.org/rules/early.html Introduction and Principles > Principles > YAGNI

34. YAGNI You Aren't Gonna Need It = Implement it only

    when you need it - 90% of features for the future are not used2 - Keep structure simple = ready for unexpected change2 Exception: Public library for external people 2 http://www.extremeprogramming.org/rules/early.html Introduction and Principles > Principles > YAGNI

35. YAGNI: Example - Unused types, procedures and values - Interface

    or abstract class with only one implementation - Function parameter for a constant value - Public global utility function only for one client code - Code commented out Introduction and Principles > Principles > YAGNI

36. Topics - Introduction - The boy scout rule - YAGNI

    - KISS - Single responsibility principle - Premature optimization is the root of all evil Introduction and Principles > Principles > KISS

37. KISS Keep It Simple Stupid — Clarence Leonard "Kelly" Johnson

    Choose simpler solution - Limit and specify the usage of a library/framework/design - Use the default implementation as far as possible Introduction and Principles > Principles > KISS

38. KISS Keep It Simple Stupid — Clarence Leonard "Kelly" Johnson

    Choose simpler solution - Limit and specify the usage of a library/framework/design - Use the default implementation as far as possible Beautiful code is not always readable Introduction and Principles > Principles > KISS

39. KISS: Good example fun getActualDataSingle(): Single<List<Int>> = Single .fromCallable(dataProvider::provide) .subscribeOn(ioScheduler)

    Introduction and Principles > Principles > KISS

40. KISS: Good example fun getActualDataSingle(): Single<List<Int>> = Single .fromCallable(dataProvider::provide) .subscribeOn(ioScheduler)

    fun getDummyDataSingle(): Single<List<Int>> = Single.just(listOf(1, 10, 100)) Introduction and Principles > Principles > KISS

41. KISS: Bad example 1/2 fun getActualDataSingle(): Single<List<Int>> = Single .fromCallable(dataProvider::provide)

    .subscribeOn(ioScheduler) fun getDummyDataSingle(): Single<List<Int>> = Single .fromCallable { listOf(1, 10, 100) } .subscribeOn(ioScheduler) Makes the code complex for unnecessary consistency Introduction and Principles > Principles > KISS

42. KISS: Bad example 2/2 fun getActualDataSingle(): Single<List<Int>> = Single .fromCallable(dataProvider::provide)

    .subscribeOn(ioScheduler) fun getDummyDataSingle(): Single<List<Int>> = Observable .range(1, 2) .reduce(listOf(1)) { list, _ -> list + list.last() * 10 } .subscribeOn(ioScheduler) Uses Rx for unnecessary list creation (Rx was used only for changing the thread.) Introduction and Principles > Principles > KISS

43. Topics - Introduction - The boy scout rule - YAGNI

    - KISS - Single responsibility principle - Premature optimization is the root of all evil Introduction and Principles > Principles > KISS

44. Single method == small responsibility? Introduction and Principles > Principles

    > Single responsibility principles

45. Single method == small responsibility? No, definitely! class Alviss {

    // May show a text, may break the device, may launch a rocket, // may ... fun doEverything(state: UniverseState) } Introduction and Principles > Principles > Single responsibility principles

46. Single responsibility principle A class should have only one reason

    to change. — Robert C. Martin Introduction and Principles > Principles > Single responsibility principles

47. Single responsibility principle A class should have only one reason

    to change. — Robert C. Martin We should not mix up two unrelated features Introduction and Principles > Principles > Single responsibility principles

48. Single responsibility principle: Bad example class LibraryBookRentalData( val bookIds: MutableList<Int>,

    val bookNames: MutableList<String>, ) { ... Introduction and Principles > Principles > Single responsibility principles

49. Single responsibility principle: Bad example class LibraryBookRentalData( val bookIds: MutableList<Int>,

    val bookNames: MutableList<String>, val bookIdToRenterNameMap: MutableMap<Int, String>, ) { ... Introduction and Principles > Principles > Single responsibility principles

50. Single responsibility principle: Bad example class LibraryBookRentalData( val bookIds: MutableList<Int>,

    val bookNames: MutableList<String>, val bookIdToRenterNameMap: MutableMap<Int, String>, val bookIdToDueDateMap: MutableMap<Int, Date>, ... ) { ... Introduction and Principles > Principles > Single responsibility principles

51. Single responsibility principle: Bad example class LibraryBookRentalData( val bookIds: MutableList<Int>,

    val bookNames: MutableList<String>, val bookIdToRenterNameMap: MutableMap<Int, String>, val bookIdToDueDateMap: MutableMap<Int, Date>, ... ) { fun findRenterName(bookName: String): String? fun findDueDate(bookName: String): Date? ... Introduction and Principles > Principles > Single responsibility principles

52. Single responsibility principle: What is wrong Introduction and Principles >

    Principles > Single responsibility principles

53. Single responsibility principle: What is wrong BookRentalData has all data

    of book, user, and circulation record Introduction and Principles > Principles > Single responsibility principles

54. Single responsibility principle: What is wrong BookRentalData has all data

    of book, user, and circulation record Split a model class for each entity Introduction and Principles > Principles > Single responsibility principles

55. Single responsibility principle: Good example data class BookData(val id: Int,

    val name: String, ...) data class UserData(val name: String, ...) Introduction and Principles > Principles > Single responsibility principles

56. Single responsibility principle: Good example data class BookData(val id: Int,

    val name: String, ...) data class UserData(val name: String, ...) class CirculationRecord( val onLoanBookEntries: MutableMap<BookData, Entry> ) { data class Entry(val renter: UserData, val dueDate: Date) Introduction and Principles > Principles > Single responsibility principles

57. Keep responsibility small Split types - Model for each entity

    - Logic for each layer and component - Utility for each target type Introduction and Principles > Principles > Single responsibility principles

58. How to confirm responsibility List what the type does, and

    try to summarize it Introduction and Principles > Principles > Single responsibility principles

59. How to confirm responsibility List what the type does, and

    try to summarize it Split the type for each case as follows - It's hard to make a summary - The summary is too fat compared with the name Introduction and Principles > Principles > Single responsibility principles

60. Topics - Introduction - The boy scout rule - YAGNI

    - KISS - Single responsibility principle - Premature optimization is the root of all evil Introduction and Principles > Principles > KISS

61. Premature optimization 1/2 We should forget about small efficiencies, say

    about 97% of the time: premature optimization is the root of all evil. — Structured Programming with go to Statements, Donald Knuth Introduction and Principles > Principles > Premature optimization

62. Premature optimization 2/2 Good: if the optimization cleans the code

    Bad: if the optimization makes the code complex Introduction and Principles > Principles > Premature optimization

63. Example of good optimization 1/2 Before: val data = arrayList.firstOrNull

    { data -> data.key == expectedKey } Introduction and Principles > Principles > Premature optimization

64. Example of good optimization 1/2 Before: val data = arrayList.firstOrNull

    { data -> data.key == expectedKey } After: val data = hashMap.getOrNull(key) Introduction and Principles > Principles > Premature optimization

65. Example of good optimization 1/2 Before: val data = arrayList.firstOrNull

    { data -> data.key == expectedKey } After: val data = hashMap.getOrNull(key) Simplify the code while reducing the calculation cost Introduction and Principles > Principles > Premature optimization

66. Examples of bad optimization Don't optimize without profiling or platform

    support, either - Mutable instance reusing - Lazy initialization - Cache - Inline extraction - Instance pool Introduction and Principles > Principles > Premature optimization

67. Drawbacks of optimization - May obstruct simplification - Compiler is

    sometimes smarter than us - May require overhead cost - Lazy initialization: (Synchronized) instance check - Cache: cache miss ratio * cache access time Introduction and Principles > Principles > Premature optimization

68. Required actions before optimization - Ask yourself "Do I really

    need it?" or "Is it easy enough to implement?" - Profile Target (time, memory), number, rate Introduction and Principles > Principles > Premature optimization

69. Summary Focus on sustainable development: Readability Introduction and Principles >

    Summary

70. Summary Focus on sustainable development: Readability The boy scout rule:

    Clean code whenever you have touched it Introduction and Principles > Summary

71. Summary Focus on sustainable development: Readability The boy scout rule:

    Clean code whenever you have touched it YAGNI: Implement only when you need it Introduction and Principles > Summary

72. Summary Focus on sustainable development: Readability The boy scout rule:

    Clean code whenever you have touched it YAGNI: Implement only when you need it KISS: Use simple method, beautiful != readable Introduction and Principles > Summary

73. Summary Focus on sustainable development: Readability The boy scout rule:

    Clean code whenever you have touched it YAGNI: Implement only when you need it KISS: Use simple method, beautiful != readable Single responsibility principle: Make the scope clear Introduction and Principles > Summary

74. Summary Focus on sustainable development: Readability The boy scout rule:

    Clean code whenever you have touched it YAGNI: Implement only when you need it KISS: Use simple method, beautiful != readable Single responsibility principle: Make the scope clear Premature optimization: Profile or estimate before optimization Introduction and Principles > Summary

75. codeReadabilitySession2 N_A_M_I_N_G

76. Contents of this lecture - Introduction and Principles - Natural

    language: Naming, Comments - Inner type structure: State, Procedure - Inter type structure: Dependency (two sessions) - Follow-up: Review Naming > Introduction

77. What we name - Type: class, interface, enum, struct, protocol,

    trait - Value: property, field, parameter, local value - Procedure: function, method, subroutine - Scope: package, module, namespace - Resource: file, directory, ID - etc. Naming > Introduction

78. What a good name is - Accurate isVisible shouldn't be

    used for sound - Descriptive width/height rather than w/h - Unambiguous imageView/imageBitmap/imageUrl rather than image Naming > Introduction

79. How to create a good name - Use correct grammar

    - Describe what rather than who/when - Choose unambiguous words - Avoid confusing abbreviations - Add type/unit suffix - Use positive affirmation Naming > Introduction

80. Topics - Use correct grammar - Describe what rather than

    who/when - Choose unambiguous words - Avoid confusing abbreviations - Add type/unit suffix - Use positive affirmation Naming > Introduction

81. Why grammar is important Question 1: What is ListenerEventMessageClickViewText? Naming

    > Use the correct grammar

82. Why grammar is important Question 1: What is ListenerEventMessageClickViewText? Answer?:

    A text of a click view (?) of listener event message (???) Naming > Use the correct grammar

83. Why grammar is important Question 1: What is ListenerEventMessageClickViewText? Answer?:

    A text of a click view (?) of listener event message (???) Question 2: What is MessageTextViewClickEventListener? Naming > Use the correct grammar

84. Why grammar is important Question 1: What is ListenerEventMessageClickViewText? Answer?:

    A text of a click view (?) of listener event message (???) Question 2: What is MessageTextViewClickEventListener? Answer: A listener of click events on a message text view Naming > Use the correct grammar

85. Use correct grammar "Grammar" depends on the language and convention

    Let's look at the case of Java/Kotlin Naming > Use the correct grammar

86. Types of names 1/2 - Noun: Type, value (including property

    function) imageView, HashSet, indexOf - Imperative: Procedure findMessage, compareTo Naming > Use the correct grammar

87. Types of names 2/2 - Adjective, participle: Interface, state type/constant

    Iterable, PLAYING, CONNECTED - Interrogative, third-person verb: Boolean value/function isTextVisible, contains, equalsTo, may/shouldShow - Adverb phrase with preposition: Converter, callback toInt, fromMemberId, onNewIntent Naming > Use the correct grammar

88. Grammar: Nouns Place the essential words at the last (=

    the word telling what it is) Naming > Use the correct grammar

89. Grammar: Nouns Place the essential words at the last (=

    the word telling what it is) ! : MessageEventHandler, buttonHeight Naming > Use the correct grammar

90. Grammar: Nouns Place the essential words at the last (=

    the word telling what it is) ! : MessageEventHandler, buttonHeight ! : xyzHeightForPortlait (don't use for a type name) Naming > Use the correct grammar

91. Grammar: Nouns Place the essential words at the last (=

    the word telling what it is) ! : MessageEventHandler, buttonHeight ! : xyzHeightForPortlait (don't use for a type name) ! : HandlerMessageEvent (if it's a handler), heightPortlait Naming > Use the correct grammar

92. Grammar: Nouns Place the essential words at the last (=

    the word telling what it is) ! : MessageEventHandler, buttonHeight ! : xyzHeightForPortlait (don't use for a type name) ! : HandlerMessageEvent (if it's a handler), heightPortlait Exception: Property function with a preposition e.g., indexOf(value), maxValueIn(array) Naming > Use the correct grammar

93. Grammar: Imperative Place a verb at the first Naming >

    Use the correct grammar

94. Grammar: Imperative Place a verb at the first "get X":

    ! getX, " xGet Naming > Use the correct grammar

95. Grammar: Imperative Place a verb at the first "get X":

    ! getX, " xGet "post Y": ! postY, " yPost Naming > Use the correct grammar

96. Grammar: Imperative Place a verb at the first "get X":

    ! getX, " xGet "post Y": ! postY, " yPost "map to Z": ! mapToZ, " toZMap, zToMap Naming > Use the correct grammar

97. How a name in a wrong order is created class

    UserActionEvent Naming > Use the correct grammar

98. How a name in a wrong order is created class

    UserActionEvent class UserActionEventSwipe: UserActionEvent() class UserActionEventClick: UserActionEvent() Naming > Use the correct grammar

99. How a name in a wrong order is created class

    UserActionEvent class UserActionEventSwipe: UserActionEvent() class UserActionEventClickMessageText: UserActionEvent() class UserActionEventClickProfileImage: UserActionEvent() Naming > Use the correct grammar

100. How a name in a wrong order is created class

     UserActionEvent class UserActionEventSwipe: UserActionEvent() class UserActionEventClickMessageText: UserActionEvent() class UserActionEventClickProfileImage: UserActionEvent() Don't focus on comprehensiveness and consistency too much Imagine how it looks on the caller side Naming > Use the correct grammar

101. Grammar: Summary - Types for a name Noun, imperative, adjective,

     interrogative (+ third person), adverb - Word order is important Imagine how the name looks on the caller side Naming > Use the correct grammar

102. Topics - Use the correct grammar - Describe what rather

     than who/when - Choose unambiguous words - Avoid confusing abbreviations - Add type/unit suffix - Use positive affirmation Naming > Describe what rather than who/when

103. Describe what rather than who/when - A name must answer

     ! What a type/value is ! What a procedure does Naming > Describe what rather than who/when

104. Describe what rather than who/when - A name must answer

     ! What a type/value is ! What a procedure does - A name should not mention to the caller " Who it calls/uses " When/Where/Why/How it's called/used Naming > Describe what rather than who/when

105. Function name example: Declaration Good ! : Describe what this

     procedure does class MessageRepository { fun storeReceivedMessage(data: MessageData) { Naming > Describe what rather than who/when

106. Function name example: Declaration Good ! : Describe what this

     procedure does class MessageRepository { fun storeReceivedMessage(data: MessageData) { Bad ! : Describe when this procedure should be called class MessageRepository { fun onMessageReceived(data: MessageData) { Naming > Describe what rather than who/when

107. Function name example: Caller code Good ! : We can

     know what happens by the calling code repository.storeReceivedMessage(messageData) handler.post { presenter.showNewReceivedMessage(messageData) } Naming > Describe what rather than who/when

108. Function name example: Caller code Good ! : We can

     know what happens by the calling code repository.storeReceivedMessage(messageData) handler.post { presenter.showNewReceivedMessage(messageData) } Bad ! : We can't know what happens repository.onMessageReceived(messageData) handler.post { presenter.onMessageReceived(messageData) } Naming > Describe what rather than who/when

109. Function name example: Another bad reason The procedure responsibility is

     ambiguous Naming > Describe what rather than who/when

110. Function name example: Another bad reason The procedure responsibility is

     ambiguous class MessageViewPresenter { fun onMessageReceived(data: MessageData) { // View presentation code for new message ... Naming > Describe what rather than who/when

111. Function name example: Another bad reason The procedure responsibility is

     ambiguous class MessageViewPresenter { fun onMessageReceived(data: MessageData) { // View presentation code for new message ... launch(...) { repository.onMessageReceived(data) } // !! Naming > Describe what rather than who/when

112. Function name example: Another bad reason The procedure responsibility is

     ambiguous class MessageViewPresenter { fun onMessageReceived(data: MessageData) { // View presentation code for new message ... launch(...) { repository.onMessageReceived(data) } // !! What happens with the following code? repository.onMessageReceived(messageData) handler.post { presenter.onMessageReceived(messageData) } Naming > Describe what rather than who/when

113. Parameter name example: Declaration Good ! : We can know

     what happens if it's true fun showHistory(shouldShowDialogOnError: Boolean) Naming > Describe what rather than who/when

114. Parameter name example: Declaration Good ! : We can know

     what happens if it's true fun showHistory(shouldShowDialogOnError: Boolean) Bad ! : We can't know what happens if it's true fun showHistory(isCalledFromMainActivity: Boolean) Naming > Describe what rather than who/when

115. Parameter name example: Reason of "bad" 1: The name easily

     becomes obsolete // ... from another activity requiring dialog showHistory(isCalledFromMainActivity = true) Naming > Describe what rather than who/when

116. Parameter name example: Reason of "bad" 1: The name easily

     becomes obsolete // ... from another activity requiring dialog showHistory(isCalledFromMainActivity = true) 2: The parameter will be used for other purposes if (isCalledFromMainActivity) { setActivityResult(...) Naming > Describe what rather than who/when

117. Parameter name example: Reason of "bad" 1: The name easily

     becomes obsolete // ... from another activity requiring dialog showHistory(isCalledFromMainActivity = true) 2: The parameter will be used for other purposes if (isCalledFromMainActivity) { setActivityResult(...) Causes a bug if 1 and 2 happens at the same time Naming > Describe what rather than who/when

118. Describe what: Exception May need to name by how/when for

     an abstract callback interface - e.g., onClicked / onSwiped / onDestroyed Naming > Describe what rather than who/when

119. Describe what: Exception May need to name by how/when for

     an abstract callback interface - e.g., onClicked / onSwiped / onDestroyed - Because "what" is not decided on the declaration Naming > Describe what rather than who/when

120. Describe what: Exception May need to name by how/when for

     an abstract callback interface - e.g., onClicked / onSwiped / onDestroyed - Because "what" is not decided on the declaration We should name by "what" if possible even for a callback abstract fun toggleSelectionState() ... view.setOnClickListener { toggleSelectionState() } Naming > Describe what rather than who/when

121. Describe what: Summary Describe "what" it does/is = Should not

     mention to the caller (who/when/where/why/how) Naming > Describe what rather than who/when

122. Describe what: Summary Describe "what" it does/is = Should not

     mention to the caller (who/when/where/why/how) - Show code responsibility clearly - Make caller code readable Naming > Describe what rather than who/when

123. Describe what: Summary Describe "what" it does/is = Should not

     mention to the caller (who/when/where/why/how) - Show code responsibility clearly - Make caller code readable Exception: Abstract callback interface Naming > Describe what rather than who/when

124. Topics - Use the correct grammar - Describe what rather

     than who/when - Choose unambiguous words - Avoid confusing abbreviations - Add type/unit suffix - Use positive affirmation Naming > Choose unambiguous words

125. Ambiguous words: Example 1/2 Question: What does initializationFlag represent? -

     shouldInitialize - isInitializing - is/wasInitialized - isInitializable - isNotInitialized (!!) Naming > Choose unambiguous words

126. Ambiguous words: Example 1/2 Question: What does initializationFlag represent? -

     shouldInitialize - isInitializing - is/wasInitialized - isInitializable - isNotInitialized (!!) Choose one from the above options (Except for the last one) Naming > Choose unambiguous words

127. Ambiguous words: Example 2/2 Question: What does sizeLimit represent? -

     max or min? - height, width, byte, characters, or length? Naming > Choose unambiguous words

128. Ambiguous words: Example 2/2 Question: What does sizeLimit represent? -

     max or min? - height, width, byte, characters, or length? Name maxHeight, for example. Naming > Choose unambiguous words

129. Rewording options to consider - flag: is, was, should, can,

     may, will ... - check: is, query, verify, measure, filter, notify, update ... - good, fine: valid, completed, reliable, secure, satisfies ... - old: previous, stored, expired, invalidated, deprecated ... - tmp, retval: actual name Naming > Choose unambiguous words

130. Rewording options to consider - flag: is, was, should, can,

     may, will ... - check: is, query, verify, measure, filter, notify, update ... - good, fine: valid, completed, reliable, secure, satisfies ... - old: previous, stored, expired, invalidated, deprecated ... - tmp, retval: actual name Use dictionary and thesaurus Naming > Choose unambiguous words

131. Choose unambiguous words: Summary - Avoid words like flag and

     check - Use a dictionary and thesaurus Naming > Choose unambiguous words

132. Topics - Use the correct grammar - Describe what rather

     than who/when - Choose unambiguous words - Avoid confusing abbreviations - Add type/unit suffix - Use positive affirmation Naming > Avoid confusing abbreviations

133. Abbreviations: Example 1/2 Question: What does im stand for? Naming

     > Avoid confusing abbreviations

134. Abbreviations: Example 1/2 Question: What does im stand for? input

     method, illegal message, instance manager ... Naming > Avoid confusing abbreviations

135. Abbreviations: Example 1/2 Question: What does im stand for? input

     method, illegal message, instance manager ... Don't use your own acronyms - Recognizing is easier than recalling3 3 100 Things: Every Designer Needs to Know About People, Susan Weinschenk, 2011 Naming > Avoid confusing abbreviations

136. Abbreviations: Example 2/2 Question: What does str stand for? Naming

     > Avoid confusing abbreviations

137. Abbreviations: Example 2/2 Question: What does str stand for? string,

     structure, stream, streak, street, sorted transaction record Naming > Avoid confusing abbreviations

138. Abbreviations: Example 2/2 Question: What does str stand for? string,

     structure, stream, streak, street, sorted transaction record Abbreviations may be acceptable if commonly used - Abbreviations like URL and TCP are totally fine - str for string is acceptable especially for a limited scope Naming > Avoid confusing abbreviations

139. Project-specific abbreviation Some abbreviations are used project-wide Naming > Avoid

     confusing abbreviations

140. Project-specific abbreviation Some abbreviations are used project-wide Make readable for

     a new team member - Write documentation for type, value, or procedure - Prepare glossary Naming > Avoid confusing abbreviations

141. Avoid confusing abbreviations: Summary - Don't use your own abbreviations

     - Commonly used abbreviations are acceptable - Prepare document or glossary for project-specific abbreviations Naming > Avoid confusing abbreviations

142. Topics - Use the correct grammar - Describe what rather

     than who/when - Choose unambiguous words - Avoid confusing abbreviations - Add type/unit suffix - Use positive affirmation Naming > Add type/unit suffix

143. Add type/unit suffix Add suffix as a supplement type/unit -

     timeout: timeoutMillis, timeoutHours - width: widthPoints, widthPx, widthInches - color: colorInt, colorResId - i, j, k: xxxIndex, row, col Naming > Add type/unit suffix

144. Add type/unit suffix: Aside Consider creating a wrapper class of

     a unit Naming > Add type/unit suffix

145. Add type/unit suffix: Aside Consider creating a wrapper class of

     a unit class Inch(val value: Int) class Centimeter(val value: Int) Naming > Add type/unit suffix

146. Add type/unit suffix: Aside Consider creating a wrapper class of

     a unit class Inch(val value: Int) class Centimeter(val value: Int) fun setWidth(width: Inch) = ... setWidth(Centimeter(10)) // Compile error! Naming > Add type/unit suffix

147. Add type/unit suffix: Aside Consider creating a wrapper class of

     a unit class Inch(val value: Int) class Centimeter(val value: Int) fun setWidth(width: Inch) = ... setWidth(Centimeter(10)) // Compile error! "value class" (Scala) or "inline class" (Kotlin) may help you Naming > Add type/unit suffix

148. Topics - Use the correct grammar - Describe what rather

     than who/when - Choose unambiguous words - Avoid confusing abbreviations - Add type/unit suffix - Use positive affirmation Naming > Use positive affirmation

149. Use positive affirmation ! : Positive words, isEnabled Naming >

     Use positive affirmation

150. Use positive affirmation ! : Positive words, isEnabled ! :

     Negative words, isDisabled Naming > Use positive affirmation

151. Use positive affirmation ! : Positive words, isEnabled ! :

     Negative words, isDisabled ! : Positive words with "not", "no", or "non", isNotEnabled Naming > Use positive affirmation

152. Use positive affirmation ! : Positive words, isEnabled ! :

     Negative words, isDisabled ! : Positive words with "not", "no", or "non", isNotEnabled ! : Negative words with "not", "no", or "non", isNotDisabled Naming > Use positive affirmation

153. Use positive affirmation ! : Positive words, isEnabled ! :

     Negative words, isDisabled ! : Positive words with "not", "no", or "non", isNotEnabled ! : Negative words with "not", "no", or "non", isNotDisabled We can rename isNotDisabled → isEnabled, and isNotEnabled → isDisabled without any logic change Naming > Use positive affirmation

154. Topics - Use the correct grammar - Describe what rather

     than who/when - Choose unambiguous words - Avoid confusing abbreviations - Add type/unit suffix - Use positive affirmation Naming > Adhere to language/platform/project conventions

155. Topics - Use the correct grammar - Describe what rather

     than who/when - Choose unambiguous words - Avoid confusing abbreviations - Add type/unit suffix - Use positive affirmation - Adhere to language/platform/project conventions Naming > Adhere to language/platform/project conventions

156. Language/platform/project conventions Adhere to convention/rule/manner of language/platform/project Naming > Adhere

     to language/platform/project conventions

157. Language/platform/project conventions Adhere to convention/rule/manner of language/platform/project Some conventions use

     a get... method, satisfying the following requirements - Returns a value - Finishes immediately and O(1) - Has no side-effect Naming > Adhere to language/platform/project conventions

158. Summary A name must be accurate, descriptive, and unambiguous Naming

     > Summary

159. Summary A name must be accurate, descriptive, and unambiguous Pay

     attention to - describing "what" rather than "who/when" - grammar and word choice Naming > Summary

160. /** Code readability session 3 */ // Comments

161. Contents of this lecture - Introduction and Principles - Natural

     language: Naming, Comments - Inner type structure: State, Procedure - Inter type structure: Dependency (two sessions) - Follow-up: Review Comments > Introduction

162. Why we should write comments Readability - Convey intent: summarize,

     explain reasoning - Prevent mistakes: note precautions - Refactor: rename, simplify Comments > Introduction

163. Why we should write comments Readability - Convey intent: summarize,

     explain reasoning - Prevent mistakes: note precautions - Refactor: rename, simplify We don't need a comment if the code is simple enough (depending on the convention) Comments > Introduction

164. Why we should write comments Readability - Convey intent: summarize,

     explain reasoning - Prevent mistakes: note precautions - Refactor: rename, simplify We don't need a comment if the code is simple enough (depending on the convention) Comments > Introduction

165. Refactoring with comments: Example /** * Adds a new pair

     of keyword and the definition to this dictionary, * can be referenced by [getDefinition(String)]. * * If the keyword is already registered, this registration fails. * Then, this returns a boolean representing whether the registration * succeeded. */ fun add(newData: Pair<String, String>): Boolean Comments > Introduction

166. Refactoring with comments: Refactoring plan Think about why we need

     a long comment Comments > Introduction

167. Refactoring with comments: Refactoring plan Think about why we need

     a long comment for the parameter, error case, and return value - Rename method - Break parameters - Simplify error cases - Remove unnecessary return value Comments > Introduction

168. Refactoring after comment: Refactoring result /** * Adds or overwrites

     a definition of a given [keyword]. * The registered definition is obtained by [getDefinition(String)]. */ fun registerDefinition(keyword: String, definitionText: String) Comments > Introduction

169. Types of comments - Documentation: Formal comment for type/value/procedure... -

     Inline comment: Informal comment in a code block - To do: // TODO: , // FIXME: - IDE/compiler support, code generation: // $COVERAGE-IGNORE$ Comments > Introduction

170. Topics - Documentation - Inline comment Comments > Introduction

171. Topics - Documentation - Inline comment Comments > Documentation

172. What we write documentation for - Type: class, struct, interface,

     protocol, enum ... - Value: field, property, constant, parameter ... - Procedure: global function, method, extension ... - Scope: package, module, namespace ... Comments > Documentation

173. Format of documentation Starts with... - `/**` for Kotlin, Java,

     Swift and Objective-C - `///` for Swift and Objective-C - `/*!` for Objective-C Refer to documentation for KDoc, JavaDoc, Swift Markup or HeaderDoc for more details Comments > Documentation

174. Contents of documentation Let's take a look at anti-patterns first

     Comments > Documentation

175. Anti-patterns: Auto-generated comment /** * @param keyword * @return */

     fun getDescription(keyword: String): String Comments > Documentation > Anti-patterns

176. Anti-patterns: Same to the name /** * Gets the description

     for a keyword. */ fun getDescription(keyword: String): String Comments > Documentation > Anti-patterns

177. Anti-patterns: Translation of the code /** * Calls [doA] if

     `conditionA` is satisfied. * Otherwise, calls [doB] and if ... */ fun getDescription(keyword: String): String { if (conditionA) { doA() } else { doB() if (...) {...} } Comments > Documentation > Anti-patterns

178. Anti-patterns: Referring to private members /** * Returns a string

     stored in a private map [dictionary]. */ fun getDescription(keyword: String): String Comments > Documentation > Anti-patterns

179. Anti-patterns: No summary /** * Throws an exception if the

     given `keyword` is empty. */ fun getDescription(keyword: String): String Comments > Documentation > Anti-patterns

180. Anti-patterns: Mentioning to callers /** * ... * This is

     called by class [UserProfilePresenter]. */ fun getDescription(keyword: String): String Comments > Documentation > Anti-patterns

181. Lessons from anti-patterns Write documentation only when explanation is required

     - Fine to skip if type/value/procedure name is enough Comments > Documentation > Anti-patterns

182. Lessons from anti-patterns Write documentation only when explanation is required

     - Fine to skip if type/value/procedure name is enough Summarize "what it is/does" - Without mentioning to callers - Without using implementation details Comments > Documentation > Anti-patterns

183. Contents of documentation Comments > Documentation > Overview

184. Contents of documentation Short summary (Mandatory) "What it is/does" in

     a phrase/sentence Comments > Documentation > Overview

185. Contents of documentation Short summary (Mandatory) "What it is/does" in

     a phrase/sentence Details (Optional) Additional sentences to explain usages, limitations, and so on Comments > Documentation > Overview

186. Contents of documentation Short summary (Mandatory) "What it is/does" in

     a phrase/sentence Details (Optional) Additional sentences to explain usages, limitations, and so on Comments > Documentation > Short summary

187. Short summary: How to write 1/2 Find the most important

     line/block/element of code Comments > Documentation > Short summary

188. Short summary: How to write 1/2 Find the most important

     line/block/element of code if (!user.isValid) { return } val rawProfileImage = getProfileImage(user.id, ...) val roundProfileImage = applyRoundFilter(rawProfileImage, ...) profileView.setImage(roundProfileImage) Comments > Documentation > Short summary

189. Short summary: How to write 1/2 Find the most important

     line/block/element of code if (!user.isValid) { return } val rawProfileImage = getProfileImage(user.id, ...) val roundProfileImage = applyRoundFilter(rawProfileImage, ...) profileView.setImage(roundProfileImage) Comments > Documentation > Short summary

190. Short summary: How to write 2/2 Complement information based on

     the most important point Comments > Documentation > Short summary

191. Short summary: How to write 2/2 Complement information based on

     the most important point /** * Shows ... a profile image * */ ... profileView.setImage(roundProfileImage) Comments > Documentation > Short summary

192. Short summary: How to write 2/2 Complement information based on

     the most important point /** * Shows a roundly cut profile image of a given [user]. * ... */ ... profileView.setImage(roundProfileImage) Comments > Documentation > Short summary

193. Short summary: How to write 2/2 Complement information based on

     the most important point /** * Shows a roundly cut profile image of a given [user]. * ... */ ... profileView.setImage(roundProfileImage) The summary will also be a good hint for naming Comments > Documentation > Short summary

194. Convention of short summary Refer to standard library documents Examples:

     Kotlin, Java, Swift, Objective-C - Type, Value: Starts with a noun phrase e.g., "A generic ordered collection of elements."4 - Procedure: Starts with a verb with 3rd-person singular form e.g., "Adds a new element at the end of the array."5 5 https://developer.apple.com/documentation/swift/array/3126937-append 4 https://kotlinlang.org/api/latest/jvm/stdlib/kotlin.collections/-list/#list Comments > Documentation > Short summary

195. Contents of documentation Short summary (Mandatory) "What it is/does" in

     a phrase/sentence Details (Optional) Additional sentences to explain usages, limitations, and so on Comments > Documentation > Details

196. Contents of "details" in documentation - Specification and usage -

     Function return value - Limitation and error values/status - Examples - ... Comments > Documentation > Details

197. Contents of "details" in documentation - Specification and usage -

     Function return value - Limitation and error values/status - Examples Comments > Documentation > Details

198. Specification and usage Comment on typical usage and expected behavior

     Comments > Documentation > Details

199. Specification and usage Comment on typical usage and expected behavior

     /** * ... * To update view components such as message text and sender name, * give [MessageData] model object to [bindView]. */ class MessageViewPresenter(messageView: View) Comments > Documentation > Details

200. Contents of "details" in documentation - Specification and usage -

     Function return value - Limitation and error values/status - Examples Comments > Documentation > Details

201. Function return value 1/2 Question: What does the following return

     value mean? fun setSelectedState(isSelected: Boolean): Boolean Comments > Documentation > Details

202. Function return value 1/2 Question: What does the following return

     value mean? fun setSelectedState(isSelected: Boolean): Boolean Possible answer: isToggled // true if the state is changed Comments > Documentation > Details

203. Function return value 1/2 Question: What does the following return

     value mean? fun setSelectedState(isSelected: Boolean): Boolean Possible answer: isToggled // true if the state is changed wasSelected // previous state before the function call Comments > Documentation > Details

204. Function return value 1/2 Question: What does the following return

     value mean? fun setSelectedState(isSelected: Boolean): Boolean Possible answer: isToggled // true if the state is changed wasSelected // previous state before the function call isSuccessfullyUpdated // true if there is no error Comments > Documentation > Details

205. Function return value 1/2 Question: What does the following return

     value mean? fun setSelectedState(isSelected: Boolean): Boolean Possible answer: isToggled // true if the state is changed wasSelected // previous state before the function call isSuccessfullyUpdated // true if there is no error isSelected // pass through the given `isSelected` value ... Comments > Documentation > Details

206. Function return value 2/2 Comment on a return value if

     the function name is not enough - has side effects for function call - has contract on the return value Comments > Documentation > Details

207. Function return value 2/2 Comment on a return value if

     the function name is not enough - has side effects for function call - has contract on the return value /** * ... * ... returns true if it was selected before this function call. */ fun setSelectedState(isSelected: Boolean): Boolean Comments > Documentation > Details

208. Function return value 2/2 Comment on a return value if

     the function name is not enough - has side effects for function call - has contract on the return value /** * ... * The profile ID is non-negative value. */ fun getProfileId(): Int Comments > Documentation > Details

209. Contents of "details" in documentation - Specification and usage -

     Function return value - Limitation and error values/status - Examples Comments > Documentation > Details

210. Limitation and error values/status Comment on the expected precondition and

     error values/status - A required receiver state to call a function - Restrictions on the arguments Comments > Documentation > Details

211. Limitation and error values/status Comment on the expected precondition and

     error values/status - A required receiver state to call a function - Restrictions on the arguments /** * ... * [prepare] must be called before calling [play] or [seek], * or this throws [ResourceNotReadyException]. */ class VideoPlayer(videoPath: String) Comments > Documentation > Details

212. Limitation and error values/status Comment on the expected precondition and

     error values/status - A required receiver state to call a function - Restrictions on the arguments /** * ... * Returns `null` if the given `position` is out of the array range. */ fun valueAt(position: Int): T? Comments > Documentation > Details

213. Limitations: Example - Arguments and receiver state - Instance lifecycle

     - Caller thread - Reentrancy, idempotency ... - Calculation cost, memory size - External environment (e.g., network, database) Comments > Documentation > Details

214. Contents of "details" in documentation - Specification and usage -

     Function return value - Limitation and error values/status - Examples Comments > Documentation > Details

215. Examples Make code more understandable with examples - Example code

     for usage - Parameter or return value example /** * ... * For example, this returns `arrayOf("a", "bc", "", "d")` * for argument `"a, bc ,,d"` */ fun splitByComma(string: String): Array<String> {... Comments > Documentation > Details

216. Documentation: Summary Comments > Documentation > Summary

217. Documentation: Summary Target: Type, value, procedure, and scope Comments >

     Documentation > Summary

218. Documentation: Summary Target: Type, value, procedure, and scope Contents: Short

     summary (mandatory), details (optional) Comments > Documentation > Summary

219. Documentation: Summary Target: Type, value, procedure, and scope Contents: Short

     summary (mandatory), details (optional) Cautions: - Write only when the name is insufficient as explanation - Don't mention to the caller or the implementation detail Comments > Documentation > Summary

220. Topics - Documentation - Inline comment Comments > Inline comment

221. What inline comment is: Kotlin case Comments > Inline comment

222. What inline comment is: Kotlin case // Function explanation, which

     won't appear on KDoc fun function(param /* Parameter explanation */: Param) { // Code block summary someMethod(value) // Reason of a statement newId = param.id + 123 /* Reason of constant value */ + ... ... Comments > Inline comment

223. What inline comment is: Kotlin case // Function explanation, which

     won't appear on KDoc fun function(param /* Parameter explanation */: Param) { // Code block summary someMethod(value) // Reason of a statement newId = param.id + 123 /* Reason of constant value */ + ... ... - Comment with whatever helps readers - Summary is not mandatory Comments > Inline comment

224. What requires inline comments - Large code: Code blocks with

     comments - Complex/unintuitive code: Summary, reason - Workaround: Background, issue link Comments > Inline comment

225. What requires inline comments - Large code: Code blocks with

     comments - Complex/unintuitive code: Summary, reason - Workaround: Background, issue link Comments > Inline comment

226. Inline comment for large code Make code blocks with comments

     to summarize what they do Comments > Inline comment

227. Inline comment for large code Make code blocks with comments

     to summarize what they do ... val messageKey = ... val messageData = messageCache[messageKey] ... if (messageData != null || ...) { // <- When this satisfies? ... // <- Hard to overview code in a nest } Comments > Inline comment

228. Inline comment for large code Make code blocks with comments

     to summarize what they do // Get message data cache if it's available val messageKey = ... val messageData = messageCache[messageKey] ... // Load message data from DB if there's no cached data. if (messageData != null || ...) { ... } Comments > Inline comment

229. What requires inline comments - Large code: Code blocks with

     comments - Complex/unintuitive code: Summary, reason - Workaround: Background, issue link Comments > Inline comment

230. Inline comment for unintuitive code Explain summary/reason if it's hard

     to understand // // wordReplacementData.reverse() .forEach { (startIndex, endIndex, newText) -> stringBuilder.replace(startIndex, endIndex, newText) } Comments > Inline comment

231. Inline comment for unintuitive code Explain summary/reason if it's hard

     to understand // // wordReplacementData.reverse() .forEach { (startIndex, endIndex, newText) -> stringBuilder.replace(startIndex, endIndex, newText) } Question: Why do we need to call reverse()? Comments > Inline comment

232. Inline comment for unintuitive code Explain summary/reason if it's hard

     to understand // Replace texts in the reverse order because `replace()` // affects the following indices. wordReplacementData.reverse() .forEach { (startIndex, endIndex, newText) -> stringBuilder.replace(startIndex, endIndex, newText) } Comments > Inline comment

233. Inline comment for unintuitive code Explain summary/reason if it's hard

     to understand // Replace texts in the reverse order because `replace()` // affects the following indices. wordReplacementData.reverse() .forEach { (startIndex, endIndex, newText) -> stringBuilder.replace(startIndex, endIndex, newText) } Prevent from removing reverse() by incorrect "refactoring" Comments > Inline comment

234. What requires inline comments - Large code: Code blocks with

     comments - Complex/unintuitive code: Summary, reason - Workaround: Background, issue link Comments > Inline comment

235. Inline comment for workaround Explain what a workaround does and

     explain the reason // We restore the previous state here // because libraryFunction() may break the receiver state Comments > Inline comment

236. Inline comment for workaround Explain what a workaround does and

     explain the reason // We restore the previous state here // because libraryFunction() may break the receiver state Add links to explain // To avoid Device-X specific tinting bug (see, ISSUE-123456) Comments > Inline comment

237. Inline comments: Summary Essentially the same with documentation - Short

     summary is not mandatory Comments > Inline comment

238. Inline comments: Summary Essentially the same with documentation - Short

     summary is not mandatory Explain for large, complex, unintuitive code - Code block, summary, reason, and links Comments > Inline comment

239. Summary - Comment with whatever readers require - Refactor before/after

     writing comments - Documentation: Short summary (mandatory) and details (optional) - Inline comments: Explanation for large, complex, unintuitive code Comments > Summary

240. const val CODE_READABILITY_SESSION_4 var State

241. Contents of this lecture - Introduction and Principles - Natural

     language: Naming, Comments - Inner type structure: State, Procedure - Inter type structure: Dependency (two sessions) - Follow-up: Review State > Introduction

242. Object state and readability 1/2 It's hard to read overly

     stated code State > Introduction

243. Object state and readability 1/2 It's hard to read overly

     stated code Question: Reference transparent/immutable == readable? State > Introduction

244. Object state and readability 1/2 It's hard to read overly

     stated code Question: Reference transparent/immutable == readable? No, sometimes it can be easier to read code with side-effect or mutable state. State > Introduction

245. Object state and readability 2/2 Let's look at an example

     of width first search of a binary tree class Node(value: Int, left: Node?, right: Node?) State > Introduction

246. Object state and readability 2/2 Let's look at an example

     of width first search of a binary tree class Node(value: Int, left: Node?, right: Node?) Case1: With a mutable queue Case2: With recursive call State > Introduction

247. Case1: With a mutable queue fun search(valueToFind: Int, root: Node):

     Node? { val queue = ArrayDeque<Node>() var node: Node? = root while (node != null && node.value != valueToFind) { node.left?.let(queue::add) node.right?.let(queue::add) node = queue.poll() } return node } State > Introduction

248. Case2: With recursive call fun search(valueToFind: Int, root: Node): Node?

     = innerSearch(valueToFind, listOf(root)) tailrec fun innerSearch(valueToFind: Int, queue: List<Node>): Node? { val node = queue.getOrNull(0) if (node == null || node.value == valueToFind) { return node } val nextQueue = queue.subList(1, queue.size) + (node.left?.let(::listOf) ?: emptyList()) + (node.right?.let(::listOf) ?: emptyList()) return innerSearch(valueToFind, nextQueue) } State > Introduction

249. Problems of the recursive call example State > Introduction

250. Problems of the recursive call example More complicated - Required

     a separate public interface from recursive function - Complex queue calculation for the next iteration State > Introduction

251. Problems of the recursive call example More complicated - Required

     a separate public interface from recursive function - Complex queue calculation for the next iteration No guarantee that valueToFind is constant - Recursive call arguments can be changed for each call - A nested function is required to make it constant State > Introduction

252. What we should care about State > Introduction

253. What we should care about Fold/recursive call is just a

     way to make code readable/robust - Must not be an objective - Apply fold/recursive call only when it makes code readable State > Introduction

254. What we should care about Fold/recursive call is just a

     way to make code readable/robust - Must not be an objective - Apply fold/recursive call only when it makes code readable Focus on actual program state rather than apparent immutability - Mutability within a small scope may be fine - Fold/recursive call may adversely affect actual state State > Introduction

255. Topics How to simplify states for readability State > Introduction

256. Topics How to simplify states for readability - "Orthogonal" relationship

     - State design strategies State > Introduction

257. Topics How to simplify states for readability - "Orthogonal" relationship

     - State design strategies State > Orthogonality

258. "Orthogonal" relationship: Definition State > Orthogonality

259. "Orthogonal" relationship: Definition For two properties, they are "orthogonal" if

     one is modifiable regardless of the other's value State > Orthogonality

260. "Orthogonal" relationship: Example Orthogonal: authorName and layoutVisibility Both properties can

     be updated regardless of the other value State > Orthogonality

261. "Orthogonal" relationship: Example Orthogonal: authorName and layoutVisibility Both properties can

     be updated regardless of the other value Non-orthogonal: authorId and authorName Both properties depend on each other authorName must be updated when authorId is also updated State > Orthogonality

262. Why we avoid non-orthogonal relationships Inconsistent state might occur State

     > Orthogonality

263. Why we avoid non-orthogonal relationships Inconsistent state might occur var

     coinCount: Int var coinText: String State > Orthogonality

264. Why we avoid non-orthogonal relationships Inconsistent state might occur var

     coinCount: Int var coinText: String What does coinCount == 10 && coinText == "0 coin" represent? State > Orthogonality

265. How to remove non-orthogonal relationships - Replace with a property

     getter or function - Encapsulate by algebraic data type State > Orthogonality

266. How to remove non-orthogonal relationships - Replace with a property

     getter or function - Encapsulate by algebraic data type State > Orthogonality

267. Replace by using getter/function 1/2 Non-orthogonal properties var coinCount: Int

     var coinText: String State > Orthogonality > Remove with getter/function

268. Replace by using getter/function 1/2 Non-orthogonal properties var coinCount: Int

     var coinText: String Remove variable by means of a property getter State > Orthogonality > Remove with getter/function

269. Replace by using getter/function 2/2 Create coinText value by coinCount

     var coinCount: Int var coinText: String State > Orthogonality > Remove with getter/function

270. Replace by using getter/function 2/2 Create coinText value by coinCount

     var coinCount: Int val coinText: String get() = resource.getQuantityString(..., coinCount) State > Orthogonality > Remove with getter/function

271. Replace by using getter/function 2/2 Create coinText value by coinCount

     var coinCount: Int val coinText: String get() = resource.getQuantityString(..., coinCount) The modifiable property is only coinCount State > Orthogonality > Remove with getter/function

272. How to remove non-orthogonal relationships - Replace with a property

     getter or function - Encapsulate by algebraic data type State > Orthogonality

273. Encapsulate by algebraic data type 1/2 Example: var queryResultText: String?

     var queryErrorCode: Int? One of queryResultText or queryErrorCode is non null exclusively State > Orthogonality > Encapsulate with an algebraic class

274. Encapsulate by algebraic data type 1/2 Example: var queryResultText: String?

     var queryErrorCode: Int? One of queryResultText or queryErrorCode is non null exclusively A variable cannot be computable from the other State > Orthogonality > Encapsulate with an algebraic class

275. Encapsulate by algebraic data type 1/2 Example: var queryResultText: String?

     var queryErrorCode: Int? One of queryResultText or queryErrorCode is non null exclusively A variable cannot be computable from the other Use algebraic data type State > Orthogonality > Encapsulate with an algebraic class

276. Algebraic data type Data type to represent direct sum State

     > Orthogonality > Encapsulate with an algebraic class

277. Algebraic data type Data type to represent direct sum Example

     of binary tree: Node = Branch(Node, Node) | Leaf(Int) | Nil State > Orthogonality > Encapsulate with an algebraic class

278. Algebraic data type Data type to represent direct sum Example

     of binary tree: Node = Branch(Node, Node) | Leaf(Int) | Nil Realized by: Tagged union, variant, sealed class, associated value ... State > Orthogonality > Encapsulate with an algebraic class

279. Encapsulate by algebraic data type 2/2 sealed class QueryResponse {

     class Result(val resultText: String): QueryResponse() class Error(val errorCode: Int): QueryResponse() } State > Orthogonality > Encapsulate with an algebraic class

280. Encapsulate by algebraic data type 2/2 sealed class QueryResponse {

     class Result(val resultText: String): QueryResponse() class Error(val errorCode: Int): QueryResponse() } QueryResponse has resultText or errorCode exclusively State > Orthogonality > Encapsulate with an algebraic class

281. How to remove non-orthogonal relationships - Replace with a property

     getter or function - Encapsulate by algebraic data type State > Orthogonality > Encapsulate with an algebraic class

282. How to remove non-orthogonal relationships - Replace with a property

     getter or function - Encapsulate by algebraic data type - Emulate algebraic data type - Use an enum for a special case State > Orthogonality > Encapsulate with an algebraic class

283. How to remove non-orthogonal relationships - Replace with a property

     getter or function - Encapsulate by algebraic data type - Emulate algebraic data type - Use an enum for a special case State > Orthogonality > Encapsulate with an algebraic class

284. Emulate algebraic data type 1/2 Some language does not have

     algebraic data type (e.g., Java) State > Orthogonality > Encapsulate with an algebraic class

285. Emulate algebraic data type 1/2 Some language does not have

     algebraic data type (e.g., Java) Emulate algebraic data type with a small class State > Orthogonality > Encapsulate with an algebraic class

286. Emulate algebraic data type 2/2 class QueryResponse { @Nullable private

     final String resultText; @Nullable private final Integer errorCode; State > Orthogonality > Encapsulate with an algebraic class

287. Emulate algebraic data type 2/2 class QueryResponse { @Nullable private

     final String resultText; @Nullable private final Integer errorCode; private QueryResponse(...) { ... } State > Orthogonality > Encapsulate with an algebraic class

288. Emulate algebraic data type 2/2 class QueryResponse { @Nullable private

     final String resultText; @Nullable private final Integer errorCode; private QueryResponse(...) { ... } @NonNull static QueryResponse asResult(@NonNull String ...) { ... } @NonNull static QueryResponse asError(int errorCode) { ... } State > Orthogonality > Encapsulate with an algebraic class

289. How to remove non-orthogonal relationships - Replace with a property

     getter or function - Encapsulate by algebraic data type - Emulate algebraic data type - Use an enum for a special case State > Orthogonality > Encapsulate with an algebraic class

290. Use an enum for a special case An enum may

     be enough to remove a non-orthogonal relationship State > Orthogonality > Encapsulate with an algebraic class

291. Use an enum for a special case An enum may

     be enough to remove a non-orthogonal relationship // isResultViewShown && isErrorViewShown can't happen var isResultViewShown: Boolean var isErrorViewShown: Boolean State > Orthogonality > Encapsulate with an algebraic class

292. Use an enum for a special case An enum may

     be enough to remove a non-orthogonal relationship // isResultViewShown && isErrorViewShown can't happen var isResultViewShown: Boolean var isErrorViewShown: Boolean An enum can remove (true, true) case enum class VisibleViewType { RESULT_VIEW, ERROR_VIEW, NOTHING } State > Orthogonality > Encapsulate with an algebraic class

293. "Orthogonal" relationship: Summary State > Orthogonality > Summary

294. "Orthogonal" relationship: Summary Orthogonal relationship - Updatable independently - Good

     to remove invalid state State > Orthogonality > Summary

295. "Orthogonal" relationship: Summary Orthogonal relationship - Updatable independently - Good

     to remove invalid state To remove non-orthogonal relationships, use - property getter/function - algebraic data type, enum, small class State > Orthogonality > Summary

296. Topics How to simplify states for readability - "Orthogonal" relationship

     - State design strategies State > State design strategy

297. Types of object state transitions State > State design strategy

298. Types of object state transitions - Immutable: e.g., constant value

     - Idempotent: e.g., closable, lazy - Acyclic (except for self): e.g., resource stream - Cyclic: e.g., reusable State > State design strategy

299. Types of object state transitions - Immutable: e.g., constant value

     - Idempotent: e.g., closable, lazy - Acyclic (except for self): e.g., resource stream - Cyclic: e.g., reusable State > State design strategy

300. Immutable object All properties won't be changed State > State

     design strategy > Immutable

301. Immutable object All properties won't be changed Immutable type example:

     class Immutable(val value: Int) class AnotherImmutable(val immutable: Immutable) State > State design strategy > Immutable

302. Immutable object All properties won't be changed Immutable type example:

     class Immutable(val value: Int) class AnotherImmutable(val immutable: Immutable) Mutable type example: class Mutable(var value: Int) class AnotherMutable(var immutable: Immutable) class YetAnotherMutable(val mutable: Mutable) State > State design strategy > Immutable

303. Immutable properties Make properties immutable if possible State > State

     design strategy > Immutable

304. Immutable properties Make properties immutable if possible class ItemListCategoryData( //

     Use val if no need to update var itemCategoryName: String, State > State design strategy > Immutable

305. Immutable properties Make properties immutable if possible class ItemListCategoryData( //

     Use val if no need to update var itemCategoryName: String, // Even if we need to update, // val of MutableList or var of List is enough var itemModelList: MutableList<ItemModel> ) State > State design strategy > Immutable

306. Types of object state transitions - Immutable: e.g., constant value

     - Idempotent: e.g., closable, lazy - Acyclic (except for self): e.g., resource stream - Cyclic: e.g., reusable State > State design strategy > Idempotent

307. Idempotency The result of multiple operations is the same as

     single operation State > State design strategy > Idempotent

308. Idempotency The result of multiple operations is the same as

     single operation val closable = Closable() // "OPEN" state closable.close() // "CLOSED" state closable.close() // Valid. Keep "CLOSED" state State > State design strategy > Idempotent

309. Idempotency The result of multiple operations is the same as

     single operation val closable = Closable() // "OPEN" state closable.close() // "CLOSED" state closable.close() // Valid. Keep "CLOSED" state The side-effect may be hidden with a wrapper (e.g., Lazy) State > State design strategy > Idempotent

310. State graph of idempotent object There are two states and

     one direction path ┌─────┐ ▼ │ ┌──────┐ ┌──────┐ │ │ Open │──────▶│Closed│──┘ └──────┘ └──────┘ State > State design strategy > Idempotent

311. Why idempotency is good Encapsulate internal state to call a

     function State > State design strategy > Idempotent

312. Why idempotency is good Encapsulate internal state to call a

     function // We may forget to check `isClosed` if (!nonIdempotentClosable.isClosed()) { nonIdempotentClosable.close() } State > State design strategy > Idempotent

313. Why idempotency is good Encapsulate internal state to call a

     function // We may forget to check `isClosed` if (!nonIdempotentClosable.isClosed()) { nonIdempotentClosable.close() } // We can simply call `close` for an idempotent instance idempotentClosable.close() State > State design strategy > Idempotent

314. Non-idempotent case It's NOT idempotent if the first state can

     remain after the operation State > State design strategy > Idempotent

315. Non-idempotent case It's NOT idempotent if the first state can

     remain after the operation fun get(): Result? { if (latestResult == null) { latestResult = queryToServer() // May return null } return latestResult State > State design strategy > Idempotent

316. Non-idempotent case It's NOT idempotent if the first state can

     remain after the operation fun get(): Result? { if (latestResult == null) { latestResult = queryToServer() // May return null } return latestResult The return values of the first call and the second can differ get() != get() // This may be true!! State > State design strategy > Idempotent

317. Non-idempotent state transition graph The first state also has a

     cycle to itself ┌─────┐ ┌─────┐ ▼ │ ▼ │ ┌──────┐ │ ┌──────┐ │ │ Null │──┴───▶│Result│──┘ └──────┘ └──────┘ State > State design strategy > Idempotent

318. Non-idempotent state transition graph The first state also has a

     cycle to itself ┌─────┐ ┌─────┐ ▼ │ ▼ │ ┌──────┐ │ ┌──────┐ │ │ Null │──┴───▶│Result│──┘ └──────┘ └──────┘ The side-effect should not be hidden State > State design strategy > Idempotent

319. Types of object state transitions - Immutable: e.g., constant value

     - Idempotent: e.g., closable, lazy - Acyclic (except for self): e.g., resource stream - Cyclic: e.g., reusable State > State design strategy > Acyclic

320. Acyclic state Instance only used for a specific argument -

     Another instance is created for another argument - The performance is not good sometimes State > State design strategy > Acyclic

321. Acyclic state Instance only used for a specific argument -

     Another instance is created for another argument - The performance is not good sometimes // This class instance works only a given `videoPath`. class VideoPlayer(videoPath: String) { enum class State { LOADING, PLAYING, FINISHED, ERROR } ... State > State design strategy > Acyclic

322. State graph of acyclic state Partial order like state transition

     (if we ignore loop for itself) ┌────────┐ ┌────────┐ ┌────────┐ │Loading │─▶│Playing │──▶│Finished│ └────────┘ └────────┘ └────────┘ │ │ ┌────────┐ └───────────┴──────▶│ Error │ └────────┘ State > State design strategy > Acyclic

323. Why acyclic state is good 1/2 Let's compare with a

     type with cyclic states State > State design strategy > Acyclic

324. Why acyclic state is good 1/2 Let's compare with a

     type with cyclic states Cyclic type example: class VideoPlayer { fun play(videoPath: String) { ... } State > State design strategy > Acyclic

325. Cyclic state transition graph Loopback to "Loading" with a new

     video path ┌───────────────────────────────┐ ▼ │ ┌────────┐ ┌────────┐ ┌────────┐ │ │Loading │─▶│Playing │──▶│Finished│──┤ └────────┘ └────────┘ └────────┘ │ │ │ ┌────────┐ │ └───────────┴──────▶│ Error │──┘ └────────┘ State > State design strategy > Acyclic

326. Why acyclic state is good 2/2 Need to check the

     current loop argument if there's a cycle State > State design strategy > Acyclic

327. Why acyclic state is good 2/2 Need to check the

     current loop argument if there's a cycle // // Abort playing video after 1000ms launch(...) { delay(1000) videoPlayer.finish() State > State design strategy > Acyclic

328. Why acyclic state is good 2/2 Need to check the

     current loop argument if there's a cycle val videoPath = videoPlayer.videoPath // Abort playing video after 1000ms launch(...) { delay(1000) // Need to check if a new video is not loaded if (videoPath == videoPlayer.videoPath) { videoPlayer.finish() State > State design strategy > Acyclic

329. Why acyclic state is good 2/2 Need to check the

     current loop argument if there's a cycle val videoPath = videoPlayer.videoPath // Abort playing video after 1000ms launch(...) { delay(1000) // Need to check if a new video is not loaded if (videoPath == videoPlayer.videoPath) { videoPlayer.finish() // Not thread safe still State > State design strategy > Acyclic

330. Acyclic state VS reality A cycle is often required to

     make a model simply - May be overly complex to remove all cycles - Example of VideoPlayer: PLAYING <-> PAUSED State > State design strategy > Acyclic

331. Acyclic state VS reality A cycle is often required to

     make a model simply - May be overly complex to remove all cycles - Example of VideoPlayer: PLAYING <-> PAUSED Make the cycle as small as possible State > State design strategy > Acyclic

332. State cycle encapsulation Put a cycle in an enclosing state

     = Don't create large cycle ┌────────────────────┐ ┌────────┐ │┌───────┐─▶┌───────┐│ ┌────────┐ │Loading │──▶││Playing│ │Paused ││──▶│Finished│ └────────┘ │└───────┘◀─└───────┘│ └────────┘ │ └────────────────────┘ │ │ ┌────────┐ └──────────────────┴────────────▶│ Error │ └────────┘ State > State design strategy > Acyclic

333. Types of object state transitions - Immutable: e.g., constant value

     - Idempotent: e.g., closable, lazy - Acyclic (except for self): e.g., resource stream - Cyclic: e.g., reusable State > State design strategy > Summary

334. State design strategy: Summary - Make properties immutable - Idempotency

     is also good - Remove/minimize state cycle State > State design strategy > Summary

335. Summary Minimize state for readability and robustness - Don't make

     it an objective State > Summary

336. Summary Minimize state for readability and robustness - Don't make

     it an objective Remove/encapsulate non-orthogonal relationships - Use a property getter/function, an algebraic data type, or enum State > Summary

337. Summary Minimize state for readability and robustness - Don't make

     it an objective Remove/encapsulate non-orthogonal relationships - Use a property getter/function, an algebraic data type, or enum Care about state design strategy - Immutability, idempotency and cycle State > Summary

338. abstract fun codeReadabilitySession5() fun Procedure()

339. Contents of this lecture - Introduction and Principles - Natural

     language: Naming, Comments - Inner type structure: State, Procedure - Inter type structure: Dependency (two sessions) - Follow-up: Review Procedure > Introduction

340. What "procedure" is - main/subroutine - function - method -

     computed property - property getter/setter - constructor/initialization block - ... Procedure > Introduction

341. What a readable procedure is Procedure > Introduction

342. What a readable procedure is Predictable - Consistent with the

     name - Easy to write documentation - Few error cases or limitations Procedure > Introduction

343. Topics Make procedure responsibility/flow clear Procedure > Introduction

344. Topics - Make responsibility clear - Split if it's hard

     to summarize - Split if it has both return value and side-effect - Make flow clear - Perform definition-based programming - Focus on normal cases - Split by object, not condition Procedure > Introduction

345. Topics - Make responsibility clear - Split if it's hard

     to summarize - Split if it has both return value and side-effect - Make flow clear - Perform definition-based programming - Focus on normal cases - Split by object, not condition Procedure > Responsibility > Check with a short summary

346. Split procedure if it's hard to summarize Try to summarize

     what the procedure does Procedure > Responsibility > Check with a short summary

347. Procedure summary: Example 1/2 messageView.text = messageData.contentText senderNameView.text = messageData.senderName

     timestampView.text = messageData.sentTimeText Procedure > Responsibility > Check with a short summary

348. Procedure summary: Example 1/2 messageView.text = messageData.contentText senderNameView.text = messageData.senderName

     timestampView.text = messageData.sentTimeText We can summarize this as: "Bind/update message layout with a new message data" Procedure > Responsibility > Check with a short summary

349. Procedure summary: Example 2/2 messageView.text = messageData.contentText doOnTransaction { messageDatabase.insertNewMessage(messageData)

     } Procedure > Responsibility > Check with a short summary

350. Procedure summary: Example 2/2 messageView.text = messageData.contentText doOnTransaction { messageDatabase.insertNewMessage(messageData)

     } How to summarize this Procedure > Responsibility > Check with a short summary

351. Procedure summary: Example 2/2 messageView.text = messageData.contentText doOnTransaction { messageDatabase.insertNewMessage(messageData)

     } How to summarize this "Bind a new message and save it" "Perform actions on a new message received" Procedure > Responsibility > Check with a short summary

352. Procedure responsibility and summary Hard to summarize = Typical bad

     signal - Split the procedure into sub-procedures Procedure > Responsibility > Check with a short summary

353. Procedure responsibility and summary Hard to summarize = Typical bad

     signal - Split the procedure into sub-procedures fun bindMessageViewData(messageData: MessageData) { ... fun saveMessageDataToDatabase(messageData: MessageData) { ... Procedure > Responsibility > Check with a short summary

354. Topics - Make responsibility clear - Split if it's hard

     to summarize - Split if it has both return value and side-effect - Make flow clear - Perform definition-based programming - Focus on normal cases - Split by object, not condition Procedure > Responsibility > Return value and side-effect

355. Command-query separation6 Asking a question should not change the answer

     7 7 Eiffel: a language for software engineering, Meyer Bertrand, 2012 6 https://martinfowler.com/bliki/CommandQuerySeparation.html Procedure > Responsibility > Return value and side-effect

356. Command-query separation6 Asking a question should not change the answer

     7 Split procedure by command and query - Command: Procedure to modify receiver or parameters - Query: Procedure to return without any modification 7 Eiffel: a language for software engineering, Meyer Bertrand, 2012 6 https://martinfowler.com/bliki/CommandQuerySeparation.html Procedure > Responsibility > Return value and side-effect

357. Command-query separation: Example 1/2 class IntList(vararg elements: Int) { infix

     fun append(others: IntList): IntList = ... } Procedure > Responsibility > Return value and side-effect

358. Command-query separation: Example 1/2 class IntList(vararg elements: Int) { infix

     fun append(others: IntList): IntList = ... } val a = IntList(1, 2) val b = IntList(3, 4) val c = a append b Procedure > Responsibility > Return value and side-effect

359. Command-query separation: Example 1/2 class IntList(vararg elements: Int) { infix

     fun append(others: IntList): IntList = ... } val a = IntList(1, 2) val b = IntList(3, 4) val c = a append b Question: What is the expected value of a, b, and c? Procedure > Responsibility > Return value and side-effect

360. Command-query separation: Example 2/2 val a = IntList(1, 2) val

     b = IntList(3, 4) val c = a append b Expected: a={1, 2}, b={3, 4}, c={1, 2, 3, 4} Procedure > Responsibility > Return value and side-effect

361. Command-query separation: Example 2/2 val a = IntList(1, 2) val

     b = IntList(3, 4) val c = a append b Expected: a={1, 2}, b={3, 4}, c={1, 2, 3, 4} Result with bad code: a={1, 2, 3, 4}, b={3, 4}, c={1, 2, 3, 4} Procedure > Responsibility > Return value and side-effect

362. Command-query separation: Example 2/2 val a = IntList(1, 2) val

     b = IntList(3, 4) val c = a append b Expected: a={1, 2}, b={3, 4}, c={1, 2, 3, 4} Result with bad code: a={1, 2, 3, 4}, b={3, 4}, c={1, 2, 3, 4} Function append must not modify a or b if it returns the result Procedure > Responsibility > Return value and side-effect

363. Command-query separation: Drawbacks 1/3 Command-query separation is not an objective

     - May cause strong coupling (will explain at the next session) - May make an unnecessary state Procedure > Responsibility > Return value and side-effect

364. Command-query separation: Drawbacks 2/3 Bad code example: class UserDataStore {

     // Command fun saveUserData(userData: UserData) = ... } Procedure > Responsibility > Return value and side-effect

365. Command-query separation: Drawbacks 2/3 Bad code example: class UserDataStore {

     private var latestOperationResult: Result = NO_OPERATION // Command fun saveUserData(userData: UserData) = ... // Query val wasLatestOperationSuccessful: Boolean get() = ... } Procedure > Responsibility > Return value and side-effect

366. Command-query separation: Drawbacks 2/3 Bad code example: class UserDataStore {

     private var latestOperationResult: Result = NO_OPERATION // Command fun saveUserData(userData: UserData) = ... // Query val wasLatestOperationSuccessful: Boolean get() = ... } State latestOperationResult may become a cause of a bug Procedure > Responsibility > Return value and side-effect

367. Command-query separation: Drawbacks 2/3 Good code example: class UserDataRequester {

     /** * Saves a given user data to ... * Then, returns true if the operation successful, otherwise false. */ fun saveUserData(userData: UserData): Boolean = ... } Procedure > Responsibility > Return value and side-effect

368. Command-query separation: Drawbacks 2/3 Good code example: class UserDataRequester {

     /** * Saves a given user data to ... * Then, returns true if the operation successful, otherwise false. */ fun saveUserData(userData: UserData): Boolean = ... } No need to keep the latest result when returning it directly Procedure > Responsibility > Return value and side-effect

369. Responsibility on return value and side-effect Don't modify when returning

     a "main" result Procedure > Responsibility > Return value and side-effect

370. Responsibility on return value and side-effect Don't modify when returning

     a "main" result = Acceptable to return a "sub" result with modification Procedure > Responsibility > Return value and side-effect

371. Responsibility on return value and side-effect Don't modify when returning

     a "main" result = Acceptable to return a "sub" result with modification - Main result: conversion/calculation result, a new instance ... - Sub result: error type, metadata of modification (stored size) ... (Documentation is mandatory) Procedure > Responsibility > Return value and side-effect

372. Responsibility on return value and side-effect Don't modify when returning

     a "main" result = Acceptable to return a "sub" result with modification - Main result: conversion/calculation result, a new instance ... - Sub result: error type, metadata of modification (stored size) ... (Documentation is mandatory) Acceptable if the interface is a de facto standard e.g., fun Queue<T>.poll(): T Procedure > Responsibility > Return value and side-effect

373. Make responsibility clear: Summary Procedure > Responsibility > Summary

374. Make responsibility clear: Summary Split a procedure if it's hard

     to summarize - Try to write documentation anyway Procedure > Responsibility > Summary

375. Make responsibility clear: Summary Split a procedure if it's hard

     to summarize - Try to write documentation anyway Don't modify when returning a "main" result - Fine to return "sub" result with modification - Fine if the interface is a de facto standard Procedure > Responsibility > Summary

376. Topics - Make responsibility clear - Split if it's hard

     to summarize - Split if it has both return value and side-effect - Make flow clear - Perform definition-based programming - Focus on normal cases - Split by object, not condition Procedure > Flow

377. How to find if procedure flow is clear Procedure >

     Flow

378. How to find if procedure flow is clear Try to

     write short summary Procedure > Flow

379. How to find if procedure flow is clear Try to

     write short summary - Hard to write when the flow is unclear Procedure > Flow

380. Topics - Make responsibility clear - Split if it's hard

     to summarize - Split if it has both return value and side-effect - Make flow clear - Perform definition-based programming - Focus on normal cases - Split by object, not condition Procedure > Flow > Definition-based programming

381. Definition-based programming Prefer to define value/procedure with a name Procedure

     > Flow > Definition-based programming

382. Definition-based programming Prefer to define value/procedure with a name rather

     than: - Nest (parameter, procedure, type, control flow) - Anonymous procedure/object literal - Chained call Procedure > Flow > Definition-based programming

383. Definition-based programming: Bad example Procedure > Flow > Definition-based programming

384. Definition-based programming: Bad example fun startColorChangeAnimation(startColorInt: Int, endColorInt: Int) =

     ColorAnimator(srcColorInt, destinationColorInt) .also { it.addUpdateListener { if (it.colorValue == null) { return@addUpdateListener } // Apply the new color to views } }.start() Procedure > Flow > Definition-based programming

385. What is wrong with the bad example Hard to make

     summary of the procedure Procedure > Flow > Definition-based programming

386. What is wrong with the bad example Hard to make

     summary of the procedure - Context and scope because of nested lambdas - Which code is called directly, and which asynchronously - Receiver caused by overly long call chain Procedure > Flow > Definition-based programming

387. Definition-based programming: How to fix 1/3 Extract a lambda/parameter/receiver/call-chain as

     a named local value or a named private function Procedure > Flow > Definition-based programming

388. Definition-based programming: How to fix 2/3 fun startColorChangeAnimation(startColorInt: Int, endColorInt:

     Int) = ColorAnimator(srcColorInt, destinationColorInt) .also { it.addUpdateListener { if (it.colorValue == null) { return@addUpdateListener } // Apply the new color to views } }.start() Procedure > Flow > Definition-based programming

389. Definition-based programming: How to fix 2/3 fun startColorChangeAnimation(startColorInt: Int, endColorInt:

     Int) = ColorAnimator(srcColorInt, destinationColorInt) .also { it.addUpdateListener { if (it.colorValue == null) { return@addUpdateListener } // Apply the new color to views } }.start() Procedure > Flow > Definition-based programming

390. Definition-based programming: How to fix 2/3 fun startColorChangeAnimation(startColorInt: Int, endColorInt:

     Int) = ColorAnimator(srcColorInt, destinationColorInt) .also { it.addUpdateListener { applyColorToViews(it.colorValue) } }.start() fun applyColorToViews(colorInt: Int?) { if (colorInt == null) { return } // Apply the new color to views } Procedure > Flow > Definition-based programming

391. Definition-based programming: How to fix 3/3 fun startColorChangeAnimation(startColorInt: Int, endColorInt:

     Int) = ColorAnimator(srcColorInt, destinationColorInt) .also { it.addUpdateListener { applyColorToViews(it.colorValue) } }.start() fun applyColorToViews(colorInt: Int?) { if (colorInt == null) { return } // Apply the new color to views } Procedure > Flow > Definition-based programming

392. Definition-based programming: How to fix 3/3 fun startColorChangeAnimation(startColorInt: Int, endColorInt:

     Int) { val animator = ColorAnimator(srcColorInt, destinationColorInt) animator.addUpdateListener { applyColorToViews(it.colorValue) } animator.start() } fun applyColorToViews(colorInt: Int?) { if (colorInt == null) { return } // Apply the new color to views } Procedure > Flow > Definition-based programming

393. Definition-based programming: How to fix 3/3 fun startColorChangeAnimation(startColorInt: Int, endColorInt:

     Int) { val animator = ColorAnimator(srcColorInt, destinationColorInt) animator.addUpdateListener { applyColorToViews(it.colorValue) } animator.start() } fun applyColorToViews(colorInt: Int?) { if (colorInt == null) { return } // Apply the new color to views } Procedure > Flow > Definition-based programming

394. Definition-based programming: Pitfall Extracting may make the code less readable

     Procedure > Flow > Definition-based programming

395. Definition-based programming: Pitfall Extracting may make the code less readable

     - Unnecessary state - Unnecessary strong coupling (will explain at the next session) Procedure > Flow > Definition-based programming

396. Pitfalls of extraction: Original code val userNameTextView: View = ...

     val profileImageView: View = ... init { // Complex userNameTextView initialization code userNameTextView... // Complex profileImageView initialization code profileImageView... } Extract complex initialization code Procedure > Flow > Definition-based programming

397. Pitfalls of extraction: Bad example var userNameTextView: View? = null

     var profileImageView: View? = null init { initializeUserNameTextView() initializeProfileImageView() } private fun initializeUserNameTextView() { userNameTextView = ... private fun initializeProfileImageView() { profileImageView = ... Procedure > Flow > Definition-based programming

398. Pitfalls of extraction: What is wrong - Unnecessary mutability and

     nullability - Unsafe to call initialize... methods multiple times - Function name initialize... is ambiguous Procedure > Flow > Definition-based programming

399. Pitfalls of extraction: What is wrong - Unnecessary mutability and

     nullability - Unsafe to call initialize... methods multiple times - Function name initialize... is ambiguous Optimize the scope of the extracted methods Procedure > Flow > Definition-based programming

400. Pitfalls of extraction: Good example Extract view creation and initialization

     procedure Procedure > Flow > Definition-based programming

401. Pitfalls of extraction: Good example Extract view creation and initialization

     procedure val userNameTextView: View = createUserNameTextView() val profileImageView: View = createProfileImageView() private fun createUserNameTextView(): TextView = ... private fun createProfileImageView(): ImageView = ... Procedure > Flow > Definition-based programming

402. Topics - Make responsibility clear - Split if it's hard

     to summarize - Split if it has both return value and side-effect - Make flow clear - Perform definition-based programming - Focus on normal cases - Split by object, not condition Procedure > Flow > Focus on normal cases

403. Normal cases and error cases Normal case: Achieves the main

     purpose of the procedure Error case: Quits the procedure without achieving the purpose Procedure > Flow > Focus on normal cases

404. Normal cases and error cases: Example String.toIntOrNull() Procedure > Flow

     > Focus on normal cases

405. Normal cases and error cases: Example String.toIntOrNull() Normal case: Returns

     an integer value e.g, "-1234", "0", "+001", "-2147483648" Procedure > Flow > Focus on normal cases

406. Normal cases and error cases: Example String.toIntOrNull() Normal case: Returns

     an integer value e.g, "-1234", "0", "+001", "-2147483648" Error case: Returns null e.g., "--0", "text", "", "2147483648", "1.0" Procedure > Flow > Focus on normal cases

407. Procedure flow and normal/error cases Procedure > Flow > Focus

     on normal cases

408. Procedure flow and normal/error cases Filter error cases to focus

     on the normal case Procedure > Flow > Focus on normal cases

409. Procedure flow and normal/error cases Filter error cases to focus

     on the normal case Apply early return Procedure > Flow > Focus on normal cases

410. Early return: Bad example Procedure > Flow > Focus on

     normal cases

411. Early return: Bad example if (isNetworkAvailable()) { val queryResult =

     queryToServer() if (queryResult.isValid) { // Do something with queryResult... } else { showInvalidResponseDialog() } } else { showNetworkUnavailableDialog() } Procedure > Flow > Focus on normal cases

412. Early return: What is wrong Unclear Procedure > Flow >

     Focus on normal cases

413. Early return: What is wrong Unclear - What the main

     case logic is - The relation between error condition and handling logic Procedure > Flow > Focus on normal cases

414. Early return: Good example Procedure > Flow > Focus on

     normal cases

415. Early return: Good example if (!isNetworkAvailable()) { showNetworkUnavailableDialog() return }

     val queryResult = queryToServer() if (!queryResult.isValid) { showInvalidResponseDialog() return } // Do something with queryResult... Procedure > Flow > Focus on normal cases

416. Benefits of early return Easy to find - The main

     flow and purpose of a procedure - Relation between error condition and handling logic Procedure > Flow > Focus on normal cases

417. Topics - Make responsibility clear - Split if it's hard

     to summarize - Split if it has both return value and side-effect - Make flow clear - Perform definition-based programming - Focus on normal cases - Split by object, not condition Procedure > Flow > Split by object

418. Two axes to break down procedure Multiple conditions and target

     objects Example: - Conditions: Two account types (premium, free) - Objects: Two views (background, icon) Procedure > Flow > Split by object

419. Two axes to break down procedure Multiple conditions and target

     objects Condition ┃ Premium account │ Free account Object ┃ │ ━━━━━━━━━━━━━━━━━━━╋━━━━━━━━━━━━━━━━━┿━━━━━━━━━━━━━━━━ Background color ┃ Yellow │ Gray ───────────────────╂─────────────────┼──────────────── Account Icon ┃ [Premium] │ [Free] Procedure > Flow > Split by object

420. Two axes to break down procedure Multiple conditions and target

     objects Condition ┃ Premium account │ Free account Object ┃ │ ━━━━━━━━━━━━━━━━━━━╋━━━━━━━━━━━━━━━━━┿━━━━━━━━━━━━━━━━ Background color ┃ Yellow │ Gray ───────────────────╂─────────────────┼──────────────── Account Icon ┃ [Premium] │ [Free] Two ways to implement this matrix Procedure > Flow > Split by object

421. Bad example of "split by condition first" fun bindViewData(accountType: AccountType)

     { when (accountType) { PREMIUM -> updateViewsForPremium() FREE -> updateViewsForFree() } } Procedure > Flow > Split by object

422. Bad example of "split by condition first" fun bindViewData(accountType: AccountType)

     { when (accountType) { PREMIUM -> updateViewsForPremium() FREE -> updateViewsForFree() } } private fun updateViewsForPremium() { backgroundView.color = PREMIUM_BACKGROUND_COLOR accountTypeIcon.image = resources.getImage(PREMIUM_IMAGE_ID) } Procedure > Flow > Split by object

423. Split by object: What is wrong - Can't summarize what

     the function does /** * Updates views depending whether the account type is free or premium. */ Procedure > Flow > Split by object

424. Split by object: What is wrong - Can't summarize what

     the function does /** * Updates views depending whether the account type is free or premium. */ - May cause bug because of no guarantee of completeness Procedure > Flow > Split by object

425. Split by object: What is wrong - Can't summarize what

     the function does /** * Updates views depending whether the account type is free or premium. */ - May cause bug because of no guarantee of completeness Make supporting function or code block for each target object first Procedure > Flow > Split by object

426. Split by object: Good example 1/2 fun bindViewData(accountType: AccountType) {

     updateBackgroundViewColor(accountType) updateAccountTypeImage(accountType) } Procedure > Flow > Split by object

427. Split by object: Good example 1/2 fun bindViewData(accountType: AccountType) {

     updateBackgroundViewColor(accountType) updateAccountTypeImage(accountType) } private fun updateBackgroundViewColor(accountType: AccountType) { backgroundView.color = when(accountType) { PREMIUM -> PREMIUM_BACKGROUND_COLOR FREE -> FREE_BACKGROUND_COLOR } } Procedure > Flow > Split by object

428. Split by object: Good example - Easy to write a

     short summary /** * Updates background color and icon according to a given account type. */ Procedure > Flow > Split by object

429. Split by object: Good example - Easy to write a

     short summary /** * Updates background color and icon according to a given account type. */ - Ensures that all the combinations are covered Procedure > Flow > Split by object

430. Split by object: Good example - Easy to write a

     short summary /** * Updates background color and icon according to a given account type. */ - Ensures that all the combinations are covered - Can conduct further more refactoring e.g., Make extracted functions reference transparent Procedure > Flow > Split by object

431. Split by object: More improvement fun bindViewData(accountType: AccountType) { backgroundView.color

     = getBackgroundColorInt(accountType) accountTypeIcon.image = getAccountTypeIconImage(accountType) } private fun getBackgroundColorInt(accountType: AccountType): Int = when(accountType) { PREMIUM -> PREMIUM_BACKGROUND_COLOR FREE -> FREE_BACKGROUND_COLOR } Procedure > Flow > Split by object

432. Early return VS split by object Doesn't "early return" represent

     "split by condition"? Procedure > Flow > Split by object

433. Early return VS split by object Doesn't "early return" represent

     "split by condition"? Strategy 1: - Handle an error case as if it's a normal case Procedure > Flow > Split by object

434. Early return VS split by object Doesn't "early return" represent

     "split by condition"? Strategy 1: - Handle an error case as if it's a normal case Strategy 2: - Apply early return to error cases - Apply "split by object" Procedure > Flow > Split by object

435. Procedure flow: Summary Procedure > Flow > Summary

436. Procedure flow: Summary Perform definition-based programming: Extract nests/chains to a

     named value/function Procedure > Flow > Summary

437. Procedure flow: Summary Perform definition-based programming: Extract nests/chains to a

     named value/function Focus on normal cases: Apply early return Procedure > Flow > Summary

438. Procedure flow: Summary Perform definition-based programming: Extract nests/chains to a

     named value/function Focus on normal cases: Apply early return Split by object, not condition: Make a function or block for each target object Procedure > Flow > Summary

439. Summary Check whether it's easy to write a short summary

     Procedure > Summary

440. Summary Check whether it's easy to write a short summary

     Procedure responsibility: - Split if required - Don't modify when returning a main result Procedure > Summary

441. Summary Check whether it's easy to write a short summary

     Procedure responsibility: - Split if required - Don't modify when returning a main result Procedure flow: - Apply definition based programing, early return, split by object Procedure > Summary

442. Code→readability→session 6 Dependency ‐

443. Contents of this lecture - Introduction and Principles - Natural

     language: Naming, Comments - Inner type structure: State, Procedure - Inter type structure: Dependency (two sessions) - Follow-up: Review Dependency

444. What "dependency" is Example: Type "X" depends on type "Y"

     - Type X has an instance of Y as a property - A method of X takes Y as a parameter or returns Y - X calls a method of Y - X inherits Y Dependency

445. What "dependency" is Example: Type "X" depends on type "Y"

     - Type X has an instance of Y as a property - A method of X takes Y as a parameter or returns Y - X calls a method of Y - X inherits Y "X" depends on "Y" if word "Y" appears in "X", roughly speaking Dependency

446. What "dependency" is Is the word "dependency" only for class?

     Dependency

447. What "dependency" is Is the word "dependency" only for class?

     No - Procedure, module, instance ... Dependency

448. Topics First session: - Coupling Second session: - Direction -

     Redundancy - Explicitness Dependency

449. Topics First session: - Coupling Second session: - Direction -

     Redundancy - Explicitness Dependency > Coupling

450. Coupling A property to represent how strong the dependency is

     ▲ Strong │ │ │ │ │ │ ▼ Weak Dependency > Coupling

451. Coupling A property to represent how strong the dependency is

     ▲ Strong │ Content coupling │ Common coupling │ Control coupling │ Stamp coupling │ Data coupling │ Message coupling ▼ Weak (Exception: External coupling) Dependency > Coupling

452. Coupling Bad/strong coupling: content, common, control Fine/weak coupling: stamp, data,

     message Dependency > Coupling

453. Coupling Bad/strong coupling: content, common, control Fine/weak coupling: stamp, data,

     message Dependency > Coupling > Content coupling

454. Content coupling Relies on the internal workings Dependency > Coupling

     > Content coupling

455. Content coupling Relies on the internal workings Example: - Allows

     illegal usage - Shares internal mutable state Dependency > Coupling > Content coupling

456. Content coupling Relies on the internal workings Example: - Allows

     illegal usage - Shares internal mutable state Dependency > Coupling > Content coupling

457. Allows illegal usage: Bad example class Caller { fun callCalculator()

     { calculator.calculate() ... Dependency > Coupling > Content coupling

458. Allows illegal usage: Bad example class Caller { fun callCalculator()

     { calculator.parameter = 42 calculator.calculate() val result = calculator.result ... Dependency > Coupling > Content coupling

459. Allows illegal usage: Bad example class Caller { fun callCalculator()

     { calculator.parameter = 42 calculator.prepare() calculator.calculate() calculator.tearDown() val result = calculator.result ... Dependency > Coupling > Content coupling

460. Allows illegal usage: Bad points Dependency > Coupling > Content

     coupling

461. Allows illegal usage: Bad points calculator has the following two

     requirements: - Call prepare()/tearDown() before/after calling calculate() - Pass/get a value by parameter/result property. Dependency > Coupling > Content coupling

462. Allows illegal usage: Bad points calculator has the following two

     requirements: - Call prepare()/tearDown() before/after calling calculate() - Pass/get a value by parameter/result property. Not robust to wrong usage and implementation change Dependency > Coupling > Content coupling

463. Allows illegal usage: How to fix - Encapsulate stateful call

     sequence - Pass/receive data as arguments or a return value Dependency > Coupling > Content coupling

464. Allows illegal usage: Fixed code example class Caller { fun

     callCalculator() { val result = calculator.calculate(42) ... Dependency > Coupling > Content coupling

465. Allows illegal usage: Fixed code example class Caller { fun

     callCalculator() { val result = calculator.calculate(42) ... class Calculator { fun calculate(type: Int): Int { prepare() ... tearDown() return ... Dependency > Coupling > Content coupling

466. Allows illegal usage: What to check Dependency > Coupling >

     Content coupling

467. Allows illegal usage: What to check Don't apply design concept/principal

     too much - e.g., command/query separation Dependency > Coupling > Content coupling

468. Content coupling Relies on the internal workings Example: - Allows

     illegal usage - Shares internal mutable state Dependency > Coupling > Content coupling

469. Shares mutable state: Bad example class UserListPresenter(val userList: List<UserData>) {

     fun refreshViews() { /* ... */ } Dependency > Coupling > Content coupling

470. Shares mutable state: Bad example class UserListPresenter(val userList: List<UserData>) {

     fun refreshViews() { /* ... */ } class Caller { val userList: List<UserData> = mutableListOf() val presenter = UserListPresenter(userList) ... Dependency > Coupling > Content coupling

471. Shares mutable state: Bad example class UserListPresenter(val userList: List<UserData>) {

     fun refreshViews() { /* ... */ } class Caller { val userList: List<UserData> = mutableListOf() val presenter = UserListPresenter(userList) ... fun addUser(newUser: UserData) { userList += newUser presenter.refreshViews() Dependency > Coupling > Content coupling

472. Shares mutable state: Bad points Behavior of UserListPresenter depends on

     external mutable value - Causes unexpected state update by other reference holders - No limitation of modifying the list Dependency > Coupling > Content coupling

473. Shares mutable state: Bad points Behavior of UserListPresenter depends on

     external mutable value - Causes unexpected state update by other reference holders - No limitation of modifying the list Easy to break the state and hard to find the root cause - A reference to the presenter is not required to update it Dependency > Coupling > Content coupling

474. Shares mutable state: How to fix - Make values immutable,

     copy arguments, or apply copy-on-write - Limit interfaces to update the state Dependency > Coupling > Content coupling

475. Shares mutable state: Fixed code example class UserListPresenter { val

     userList: MutableList<UserData> = mutableListOf() Dependency > Coupling > Content coupling

476. Shares mutable state: Fixed code example class UserListPresenter { val

     userList: MutableList<UserData> = mutableListOf() fun addUsers(newUsers: List<UserData>) { userList += newUsers // Update views with `userList` } Dependency > Coupling > Content coupling

477. Shares mutable state: Fixed code example class UserListPresenter { val

     userList: MutableList<UserData> = mutableListOf() fun addUsers(newUsers: List<UserData>) { userList += newUsers // Update views with `userList` } No need to worry about whether newUsers is mutable or not (if addUsers is atomic) Dependency > Coupling > Content coupling

478. Shares mutable state: What to check Dependency > Coupling >

     Content coupling

479. Shares mutable state: What to check Make a mutable value

     ownership clear Dependency > Coupling > Content coupling

480. Shares mutable state: What to check Make a mutable value

     ownership clear Options: - Modify only by owner's interface - Create manager class of mutable data Dependency > Coupling > Content coupling

481. Content coupling: Summary Don't rely on internal working - Remove

     illegal usage - Make mutable data ownership clear Dependency > Coupling > Content coupling

482. Coupling Bad/strong coupling: content, common, control Fine/weak coupling: stamp, data,

     message Dependency > Coupling > Common coupling

483. Common coupling Shares (mutable) global data Dependency > Coupling >

     Common coupling

484. Common coupling Shares (mutable) global data - Pass data by

     global variables - Depend on a mutable singleton - (Use files / databases / shared resources) Dependency > Coupling > Common coupling

485. Common coupling Shares (mutable) global data - Pass data by

     global variables - Depend on a mutable singleton - (Use files / databases / shared resources) Dependency > Coupling > Common coupling

486. Pass data by global variables: Bad example var parameter: Int?

     = null var result: Data? = null Dependency > Coupling > Common coupling

487. Pass data by global variables: Bad example var parameter: Int?

     = null var result: Data? = null class Calculator { fun calculate() { result = parameter + ... Dependency > Coupling > Common coupling

488. Pass data by global variables: Bad example var parameter: Int?

     = null var result: Data? = null class Calculator { fun calculate() { result = parameter + ... fun callCalculator() { parameter = 42 calculator.calculate() Dependency > Coupling > Common coupling

489. Pass data by global variables: Bad points No information/limitation of

     call relationships - Breaks other simultaneous calls - Tends to cause illegal state Dependency > Coupling > Common coupling

490. Pass data by global variables: How to fix Pass as

     a function parameter or return value Dependency > Coupling > Common coupling

491. Pass data by global variables: Fixed code class Calculator {

     fun calculate(parameter: Int): Int = parameter + ... Dependency > Coupling > Common coupling

492. Pass data by global variables: Fixed code class Calculator {

     fun calculate(parameter: Int): Int = parameter + ... fun callCalculator() { val result = calculator.calculate(42) Dependency > Coupling > Common coupling

493. Common coupling Shares (mutable) global data - Pass data by

     global variables - Depend on a mutable singleton - (Use files / databases / shared resources) Dependency > Coupling > Common coupling

494. Depend on a mutable singleton: Bad example val USER_DATA_REPOSITORY =

     UserDataRepository() Dependency > Coupling > Common coupling

495. Depend on a mutable singleton: Bad example val USER_DATA_REPOSITORY =

     UserDataRepository() class UserListUseCase { suspend fun invoke(): List<User> = withContext(...) { val result = USER_DATA_REPOSITORY.query(...) ... Dependency > Coupling > Common coupling

496. Mutable global variables: Bad points Singleton is not managed -

     Unmanaged singleton lifecycle, scope, and references - Not robust for specification change - Bad testability Dependency > Coupling > Common coupling

497. Mutable global variables: How to fix Pass an instance as

     a constructor parameter (= Dependency injection) The constructor caller can manage the instance Dependency > Coupling > Common coupling

498. Mutable global variables: Fixed code class UserListUseCase( val userDataRepository: UserDataRepository

     ) { suspend fun invoke(): List<User> = withContext(...) { val result = userDataRepository.query(...) ... Dependency > Coupling > Common coupling

499. Common coupling: Note Apply the same discussion to a smaller

     scope - module, package, type ... Example: Use a return value instead of instance field Dependency > Coupling > Common coupling

500. Common coupling in a class: Bad example class Klass {

     var result: Result? = null fun firstFunction() { secondFunction() /* use `result` */ ... fun secondFunction() { result = /* calculate result */ Dependency > Coupling > Common coupling

501. Common coupling in a class: Fixed code class Klass {

     fun firstFunction() { val result = secondFunction() /* use `result` */ ... fun secondFunction(): Int = /* calculate a return value */ Dependency > Coupling > Common coupling

502. Common coupling: Summary No more singletons nor global mutable values

     - Unmanageable, not robust, hard to test ... Dependency > Coupling > Common coupling

503. Common coupling: Summary No more singletons nor global mutable values

     - Unmanageable, not robust, hard to test ... To remove common coupling: - Pass value as arguments or a return value - Use dependency injection Dependency > Coupling > Common coupling

504. Coupling Bad/strong coupling: content, common, control Fine/weak coupling: stamp, data,

     message Dependency > Coupling > Control coupling

505. Control coupling Switches logic by passing flag "what to do"

     - Has large conditional branch covering procedure - Each branch body is unrelated to the other branches Dependency > Coupling > Control coupling

506. Control coupling example: Boolean flag fun updateView(isError: Boolean) { if

     (isError) { resultView.isVisible = true errorView.isVisible = false iconView.image = CROSS_MARK_IMAGE } else { resultView.isVisible = false errorView.isVisible = true iconView.image = CHECK_MARK_IMAGE } } Dependency > Coupling > Control coupling

507. Control coupling example: "To do" type fun updateUserView(dataType: DataType) =

     when(dataType) { UserName -> { val userName = getUserName() userNameView.text = userName } Birthday -> { val birthdayMillis = ... birthDayView.text = format(...) } ProfileImage -> ... } Dependency > Coupling > Control coupling

508. Control coupling: Bad points Unreadable - Hard to summarize what

     it does - Difficult to name and comment Dependency > Coupling > Control coupling

509. Control coupling: Bad points Unreadable - Hard to summarize what

     it does - Difficult to name and comment Not robust - Requires the similar conditional branch to the callers - Fragile against condition update Dependency > Coupling > Control coupling

510. Ideas for improvement - Remove conditional branch - Split by

     object (introduced last session) - Apply strategy pattern Dependency > Coupling > Control coupling

511. Ideas for improvement - Remove conditional branch - Split by

     object (introduced last session) - Apply strategy pattern Dependency > Coupling > Control coupling

512. Remove conditional branch Split procedures for each argument - Remove

     parameter from each new procedure Dependency > Coupling > Control coupling

513. Remove conditional branch Split procedures for each argument - Remove

     parameter from each new procedure Applicable if "what to do" value is different for each caller - If not, causes another content coupling on the caller side Dependency > Coupling > Control coupling

514. Remove conditional branch: Example fun updateUserView(dataType: DataType) = when(dataType) {

     UserName -> { val userName = getUserName() userNameView.text = userName } Birthday -> { val birthdayMillis = ... birthDayView.text = format(...) } ProfileImage -> ... } Dependency > Coupling > Control coupling

515. Remove conditional branch: Example fun updateUserNameView() { val userName =

     getUserName() userNameView.text = userName } fun updateBirthdayView() { val birthdayMillis = ... birthDayView.text = format(...) } fun updateProfileImage() { ... Dependency > Coupling > Control coupling

516. Ideas for improvement - Remove conditional branch - Split by

     object (introduced last session) - Apply strategy pattern Dependency > Coupling > Control coupling

517. Split by object Create code block for each target object,

     not condition - Break down content coupling into smaller scope Dependency > Coupling > Control coupling

518. Split by object Create code block for each target object,

     not condition - Break down content coupling into smaller scope Applicable if target objects are common for each condition - doSomethingIf... function may be used Dependency > Coupling > Control coupling

519. Split by object: Example fun updateView(isError: Boolean) { if (isError)

     { resultView.isVisible = true errorView.isVisible = false iconView.image = CROSS_MARK_IMAGE } else { resultView.isVisible = false errorView.isVisible = true iconView.image = CHECK_MARK_IMAGE } } Dependency > Coupling > Control coupling

520. Split by object: Example fun updateView(isError: Boolean) { resultView.isVisible =

     !isError errorView.isVisible = isError iconView.image = getIconImage(isError) } fun getIconImage(isError: Boolean): Image = if (!isError) CHECK_MARK_IMAGE else CROSS_MARK_IMAGE Dependency > Coupling > Control coupling

521. Ideas for improvement - Remove conditional branch - Split by

     object (introduced last session) - Apply strategy pattern Dependency > Coupling > Control coupling

522. Apply strategy pattern Create types to decide "what to do"

     - Branch with sub-typing, polymorphism, or parameter - Implemented by an enum, an abstract class, or a callback object Dependency > Coupling > Control coupling

523. Apply strategy pattern Create types to decide "what to do"

     - Branch with sub-typing, polymorphism, or parameter - Implemented by an enum, an abstract class, or a callback object Type selection logic appears on the caller side Dependency > Coupling > Control coupling

524. Apply strategy pattern: Example enum class Binder(val viewId: ViewId) {

     fun updateView(holder: ViewHolder) = holder.getView(viewId).let(::setContent) abstract fun setContent(view: View) Dependency > Coupling > Control coupling

525. Apply strategy pattern: Example enum class Binder(val viewId: ViewId) {

     USER_NAME(USER_NAME_VIEW_ID) { override fun setContent(...) = ... } BIRTHDAY(BIRTHDAY_VIEW_ID) { override fun setContent(...) = ... ... fun updateView(holder: ViewHolder) = holder.getView(viewId).let(::setContent) abstract fun setContent(view: View) Dependency > Coupling > Control coupling

526. Control coupling: Summary Don't create large conditional branch covering a

     whole procedure Dependency > Coupling > Control coupling

527. Control coupling: Summary Don't create large conditional branch covering a

     whole procedure To lease control coupling: - Remove condition parameters - Split by target instead of condition - Use strategy pattern Dependency > Coupling > Control coupling

528. Coupling Bad/strong coupling: content, common, control Fine/weak coupling: stamp, data,

     message Dependency > Coupling > Stamp coupling

529. Stamp coupling Passes a structure though some of the data

     that are not used Dependency > Coupling > Stamp coupling

530. Stamp coupling Passes a structure though some of the data

     that are not used Acceptable for some situations: - To use sub-typing, structural typing, or strategy pattern - To simplify parameter types Make parameter type as small as possible Dependency > Coupling > Stamp coupling

531. Stamp coupling: Example updateUserView(userData) fun updateUserView(userData: UserData) { Dependency >

     Coupling > Stamp coupling

532. Stamp coupling: Example updateUserView(userData) fun updateUserView(userData: UserData) { // Some

     property of `userData` are used userNameView.text = userData.fullName profileImage.setImageUrl(userData.profileImageUrl) // `userData.mailAddress` and `.phoneNumber` are not used } Dependency > Coupling > Stamp coupling

533. Coupling Bad/strong coupling: content, common, control Fine/weak coupling: stamp, data,

     message Dependency > Coupling > Data coupling

534. Data coupling Passes a set of elemental data - All

     the data must be used fun updateUserView(fullName: String, profileImageUrl: Url) { userNameView.text = fullName profileImage.setImageUrl(profileImageUrl) } updateUserView(userData.fullName, userData.profileImageUrl) Dependency > Coupling > Data coupling

535. Coupling Bad/strong coupling: content, common, control Fine/weak coupling: stamp, data,

     message Dependency > Coupling > Message coupling

536. Message coupling Call a method without any data - Hardly

     happens - May cause content coupling in another layer Dependency > Coupling > Message coupling

537. Message coupling Call a method without any data - Hardly

     happens - May cause content coupling in another layer fun notifyUserDataUpdated() { userNameView.text = ... profileImage.setImageUrl(...) } notifyUserDataUpdated() Dependency > Coupling > Message coupling

538. Coupling: Summary Avoid strong coupling - Use stamp/data coupling instead

     of content/common/control Dependency > Coupling > Summary

539. Coupling: Summary Avoid strong coupling - Use stamp/data coupling instead

     of content/common/control Content coupling: Relies on internal working Dependency > Coupling > Summary

540. Coupling: Summary Avoid strong coupling - Use stamp/data coupling instead

     of content/common/control Content coupling: Relies on internal working Common coupling: Depends on global singleton/variables Dependency > Coupling > Summary

541. Coupling: Summary Avoid strong coupling - Use stamp/data coupling instead

     of content/common/control Content coupling: Relies on internal working Common coupling: Depends on global singleton/variables Control coupling: Has large conditional branch Dependency > Coupling > Summary

542. Code←readability←session 7 Dependency ‐‐

543. Contents of this lecture - Introduction and Principles - Natural

     language: Naming, Comments - Inner type structure: State, Procedure - Inter type structure: Dependency (two sessions) - Follow-up: Review Dependency

544. Topics First session: - Coupling Second session: - Direction -

     Redundancy - Explicitness Dependency > Direction

545. Direction Keep the dependency in one direction as far as

     possible = It’s good if there’s no cycle Dependency > Direction

546. Preferred dependency direction: Example - Caller to callee - Detail

     to abstraction - Complex to simple - Algorithm to data model - Mutable to immutable - Frequently updated layer to stable layer Dependency > Direction

547. Preferred dependency direction - Caller to callee - Detail to

     abstraction - Complex to simple Dependency > Direction

548. Preferred dependency direction - Caller to callee - Detail to

     abstraction - Complex to simple Dependency > Direction

549. Bad code example class MediaViewPresenter { fun getVideoUri(): Uri =

     ... fun playVideo() { videoPlayerView.play(this) ... Dependency > Direction > Caller to callee

550. Bad code example class MediaViewPresenter { fun getVideoUri(): Uri =

     ... fun playVideo() { videoPlayerView.play(this) ... class VideoPlayerView { fun play(presenter: MediaViewPresenter) { val uri = presenter.getVideoUri() Dependency > Direction > Caller to callee

551. What is to be checked Call stack of the example

     - MediaViewPresenter.playVideo() - VideoPlayerView.play(...) - MediaViewPresenter.getVideoUri() Dependency > Direction > Caller to callee

552. What is to be checked Call stack of the example

     - MediaViewPresenter.playVideo() - VideoPlayerView.play(...) - MediaViewPresenter.getVideoUri() A call stack of A → B → A is a typical bad signal Dependency > Direction > Caller to callee

553. How to remove reference to caller Remove unnecessary callback -

     Pass values as parameters - Extract small classes Dependency > Direction > Caller to callee

554. How to remove reference to caller Remove unnecessary callback -

     Pass values as parameters - Extract small classes Dependency > Direction > Caller to callee

555. Pass values as parameters class MediaViewPresenter { fun getVideoUri(): Uri

     = ... fun playVideo() { videoPlayerView.play(this) ... class VideoPlayerView { fun play(presenter: MediaViewPresenter) { val uri = presenter.getVideoUri() Dependency > Direction > Caller to callee

556. Pass values as parameters class MediaViewPresenter { fun getVideoUri(): Uri

     = ... fun playVideo() { videoPlayerView.play(getVideoUri()) ... class VideoPlayerView { fun play(videoUri: Uri) { ... Dependency > Direction > Caller to callee

557. How to remove reference to caller Remove unnecessary callback -

     Pass values as parameters - Extract small classes Dependency > Direction > Caller to callee

558. Extract small classes Can't pass value directly for asynchronous evaluation

     Dependency > Direction > Caller to callee

559. Extract small classes Can't pass value directly for asynchronous evaluation

     ┌────────────────────────┐ │ MediaViewPresenter │ │ │───────▶┌──────────────┐ │ getVideoUri() ◀──────┼────────│ VideoPlayer │ │ │ └──────────────┘ └────────────────────────┘ Dependency > Direction > Caller to callee

560. Extract small classes Can't pass value directly for asynchronous evaluation

     ┌────────────────────────┐ │ MediaViewPresenter │ │ │───────▶┌──────────────┐ │ getVideoUri() ◀──────┼────────│ VideoPlayer │ │ │ └──────────────┘ └────────────────────────┘ Remove callback by extracting depended logic Dependency > Direction > Caller to callee

561. Extract small classes: Step 1 Create a named class for

     the callback ┌────────────────────────┐ │ MediaViewPresenter │ │ │───────▶┌──────────────┐ │ getVideoUri() ◀──────┼────────│ VideoPlayer │ │ │ └──────────────┘ └────────────────────────┘ Dependency > Direction > Caller to callee

562. Extract small classes: Step 1 Create a named class for

     the callback ┌────────────────────────┐ │ MediaViewPresenter │ │ ┌──────────────────┐ │───────▶┌──────────────┐ │ │ VideoUriProvider │◀──┼────────│ VideoPlayer │ │ └──────────────────┘ │ └──────────────┘ └────────────────────────┘ Dependency > Direction > Caller to callee

563. Extract small classes: Step 2 Move the named class out

     of the outer class ┌────────────────────────┐ │ MediaViewPresenter │ │ ┌──────────────────┐ │───────▶┌──────────────┐ │ │ VideoUriProvider │◀──┼────────│ VideoPlayer │ │ └──────────────────┘ │ └──────────────┘ └────────────────────────┘ Dependency > Direction > Caller to callee

564. Extract small classes: Step 2 Move the named class out

     of the outer class ┌────────────────────┐ │ MediaViewPresenter │─────┐ └────────────────────┘ │ ┌──────────────┐ │ └─────▶│ VideoPlayer │ │ └──────────────┘ ▼ │ ┌──────────────────┐ │ │ VideoUriProvider │◀────────────────────┘ └──────────────────┘ Dependency > Direction > Caller to callee

565. How to remove reference to caller Remove unnecessary callback -

     Pass values as parameters - Extract small classes Dependency > Direction > Caller to callee

566. Dependency on caller: Exceptions Dependency on a caller may be

     acceptable for the following: Dependency > Direction > Caller to callee

567. Dependency on caller: Exceptions Dependency on a caller may be

     acceptable for the following: - Threads - Event listeners - Strategy pattern like functions (e.g., forEach) Dependency > Direction > Caller to callee

568. Dependency on caller: Exceptions Dependency on a caller may be

     acceptable for the following: - Threads - Event listeners - Strategy pattern like functions (e.g., forEach) Alternative options: Promise pattern, coroutine, reactive... Dependency > Direction > Caller to callee

569. Preferred dependency direction - Caller to callee - Detail to

     abstraction - Complex to simple Dependency > Direction > Detail to abstraction

570. Dependency on detail Don't depend on inheritances = Don't check

     type of this or self Exception: Sealed class Dependency > Direction > Detail to abstraction

571. Bad code example open class IntList { fun addElement(value: Int)

     { if (this is ArrayIntList) { ... } else { ... ... class ArrayIntList: IntList() { ... Dependency > Direction > Detail to abstraction

572. What's wrong with the bad example Brakes encapsulation and not

     robust - For inheritance specification change - For adding a new inheritance Dependency > Direction > Detail to abstraction

573. Fixed code example Remove downcast with overriding open class IntList

     { open fun addElement(value: Int) { ... class ArrayIntList: IntList() { override fun addElement(value: Int) { ... Dependency > Direction > Detail to abstraction

574. Dependency direction - Caller to callee - Detail to abstraction

     - Complex to simple Dependency > Direction > Complex to simple

575. Bad code example class UserData( val userId: UserId, ... )

     class UserDataRequester { fun obtainFromServer(): UserData { ... Dependency > Direction > Complex to simple

576. Bad code example class UserData( val userId: UserId, ... val

     requester: UserDataRequester ) class UserDataRequester { fun obtainFromServer(): UserData { ... Dependency > Direction > Complex to simple

577. What's wrong with the bad example Unnecessary dependency may cause

     a bug - May leak requester resource - May make inconsistent state if there are multiple requesters Dependency > Direction > Complex to simple

578. What's wrong with the bad example Unnecessary dependency may cause

     a bug - May leak requester resource - May make inconsistent state if there are multiple requesters A simple type may be used widely and passed to other modules Dependency > Direction > Complex to simple

579. How to remove dependency on complex class Just remove dependency

     of "simple to complex" - Pass a complex class instance directly if required class UserData( val userId: UserId, ... ) Dependency > Direction > Complex to simple

580. Exceptions It's sometimes necessary to depend on complex types -

     Mediator pattern - Adapter or facade - Data binder Dependency > Direction > Complex to simple

581. Preferred dependency direction - Caller to callee - Detail to

     abstraction - Complex to simple Dependency > Direction > Summary

582. Direction: Summary Maintain dependency in one direction - From caller

     to callee - From complex, detailed, large to simple, abstract, small Exceptions - Async call, sealed class, mediator pattern Dependency > Direction > Summary

583. Topics First session: - Coupling Second session: - Direction -

     Redundancy - Explicitness Dependency > Redundancy

584. Redundant dependency Cascaded dependency - Nested & indirect dependency Redundant

     dependency set - N:M dependency Dependency > Redundancy

585. Redundant dependency Cascaded dependency - Nested & indirect dependency Redundant

     dependency set - N:M dependency Dependency > Redundancy

586. Cascaded dependency Avoid unnecessary dependency chain Dependency > Redundancy >

     Cascaded dependency

587. Cascaded dependency Avoid unnecessary dependency chain ┌──────────────────────┐ │ MessageTextPresenter │

     └──────────────────────┘ │ has instance ▼ ┌──────────────────────┐ │ TimestampPresenter │ └──────────────────────┘ │ has instance ▼ ┌──────────────────────┐ │ MessageDataProvider │ └──────────────────────┘ Dependency > Redundancy > Cascaded dependency

588. Cascaded dependency Avoid unnecessary dependency chain ┌──────────────────────┐ depending indirectly │

     MessageTextPresenter │─ ─ ─ ─ ─ ─ ─ ─ ┐ └──────────────────────┘ │ has instance │ ▼ (only for MessageDataProvider) ┌──────────────────────┐ │ │ TimestampPresenter │ └──────────────────────┘ │ │ has instance ▼ │ ┌──────────────────────┐ │ MessageDataProvider │◀ ─ ─ ─ ─ ─ ─ ─ ┘ └──────────────────────┘ Dependency > Redundancy > Cascaded dependency

589. Bad cascaded dependency example class TimestampPresenter { val dataProvider: MessageDataProvider

     = ... fun invalidateViews() { // Update timestamp by `dataProvider` ... Dependency > Redundancy > Cascaded dependency

590. Bad cascaded dependency example class TimestampPresenter { val dataProvider: MessageDataProvider

     = ... fun invalidateViews() { // Update timestamp by `dataProvider` ... class MessageTextPresenter { val timestampPresenter: TimestampPresenter = ... fun invalidateViews() { val messageData = timestampPresenter.dataProvider... // Update message text view by `messageData` Dependency > Redundancy > Cascaded dependency

591. What's wrong with the bad example Unnecessary dependency - MessageTextPresenter

     is unrelated with TimestampPresenter Indirect dependency - MessageTextPresenter does not have MessageDataProvider directly Dependency > Redundancy > Cascaded dependency

592. How to fix cascaded dependency Flatten nested dependencies by means

     of direct dependencies ┌──────────────────────┐ depending indirectly │ MessageTextPresenter │─ ─ ─ ─ ─ ─ ─ ─ ┐ └──────────────────────┘ │ has instance │ ▼ (only for MessageDataProvider) ┌──────────────────────┐ │ │ TimestampPresenter │ └──────────────────────┘ │ │ has instance ▼ │ ┌──────────────────────┐ │ MessageDataProvider │◀ ─ ─ ─ ─ ─ ─ ─ ┘ └──────────────────────┘ Dependency > Redundancy > Cascaded dependency

593. How to fix cascaded dependency Flatten nested dependencies by means

     of direct dependencies ┌──────────────────────┐ │ MessageTextPresenter │──┐ └──────────────────────┘ │ │ has instance ┌──────────────────────┐ ├──────────────▶│ MessageDataProvider │ ┌──────────────────────┐ │ └──────────────────────┘ │ TimestampPresenter │──┘ └──────────────────────┘ Dependency > Redundancy > Cascaded dependency

594. Fixed example of cascaded dependency class TimestampPresenter { val dataProvider:

     MessageDataProvider = ... fun invalidateViews() { // Update timestamp by `dataProvider` ... class MessageTextPresenter { val dataProvider: MessageDataProvider = ... fun invalidateViews() { // Update message text view by `dataProvider` Dependency > Redundancy > Cascaded dependency

595. Redundant dependency Cascaded dependency - Nested & indirect dependency Redundant

     dependency set - N:M dependency Dependency > Redundancy > Dependency set

596. Redundant dependency set Avoid duplication of "depending class set" ┌─────────────────────────┐

     ┌─────────────────────────┐ │ MessageTextPresenter │ │ TimestampPresenter │ └─────────────────────────┘ └─────────────────────────┘ │ │ │ │ │ │ ├───────────────────────────┘ │ │ ▼ ┌─────────────────────────┐ │ MessageDataProvider │ └─────────────────────────┘ Dependency > Redundancy > Dependency set

597. Redundant dependency set Avoid duplication of "depending class set" ┌─────────────────────────┐

     ┌─────────────────────────┐ │ MessageTextPresenter │ │ TimestampPresenter │ └─────────────────────────┘ └─────────────────────────┘ │ │ │ │ │ │ │ └ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ┼ ─ ─ ┤ ├───────────────────────────┘ │ │ │ ▼ ▼ ┌─────────────────────────┐ ┌─────────────────────────┐ │LocalMessageDataProvider │ │ServerMessageDataProvider│ └─────────────────────────┘ └─────────────────────────┘ Dependency > Redundancy > Dependency set

598. What's wrong with redundant dependency set? Fragile for modification -

     When a new depending/depended type is added Duplicates switching logic - Provider selection/fallback logic Dependency > Redundancy > Dependency set

599. How to remove redundant dependency set Create an intermediate layer

     to consolidate dependency set ┌─────────────────────────┐ ┌─────────────────────────┐ │ MessageTextPresenter │ │ TimestampPresenter │ └─────────────────────────┘ └─────────────────────────┘ │ │ │ │ │ │ │ └ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ┼ ─ ─ ┤ ├───────────────────────────┘ │ │ │ ▼ ▼ ┌─────────────────────────┐ ┌─────────────────────────┐ │LocalMessageDataProvider │ │ServerMessageDataProvider│ └─────────────────────────┘ └─────────────────────────┘ Dependency > Redundancy > Dependency set

600. How to remove redundant dependency set Create an intermediate layer

     to consolidate dependency set ┌─────────────────────────┐ ┌─────────────────────────┐ │ MessageTextPresenter │ │ TimestampPresenter │ └─────────────────────────┘ └─────────────────────────┘ └────────────────┬────────────────┘ ▼ ┌─────────────────────────┐ │ MessageDataProvider │ └─────────────────────────┘ ┌────────────────┴────────────────┐ ▼ ▼ ┌─────────────────────────┐ ┌─────────────────────────┐ │LocalMessageDataProvider │ │ServerMessageDataProvider│ └─────────────────────────┘ └─────────────────────────┘ Dependency > Redundancy > Dependency set

601. Caution to remove redundant dependency Don’t create a layer if

     you don’t need it now - Keep "YAGNI" and "KISS" in mind Don't provide access to a hidden class - Never create MessageDataProvider.serverMessageDataProvider Dependency > Redundancy > Dependency set

602. Redundancy: Summary - Remove dependencies only for providing another dependency

     - Add layer to remove dependency set duplication Dependency > Redundancy > Summary

603. Topics First session: - Coupling Second session: - Direction -

     Redundancy - Explicitness Dependency > Explicitness

604. Implicit dependency A dependency does not appear on a class

     diagram Dependency > Explicitness

605. Implicit dependency A dependency does not appear on a class

     diagram Avoid implicit dependencies, use explicit ones instead Dependency > Explicitness

606. Implicit dependency example - Implicit data domain for parameters -

     Implicitly expected behavior of subtype Dependency > Explicitness

607. Implicit dependency example - Implicit data domain for parameters -

     Implicitly expected behavior of subtype Dependency > Explicitness > Implicit data domain

608. Bad code example Question: What's wrong with the following function?

     fun setViewBackgroundColor(colorString: String) { val colorCode = when(colorString) { "red" -> 0xFF0000 "green" -> 0x00FF00 else -> 0x000000 } view.setBackgroundColor(colorCode) } Dependency > Explicitness > Implicit data domain

609. Why implicit data domain is bad Hard to find which

     value is accepted - "blue", "RED", "FF0000" are invalid Dependency > Explicitness > Implicit data domain

610. Why implicit data domain is bad Hard to find which

     value is accepted - "blue", "RED", "FF0000" are invalid Color string conversion logic is tightly coupled with the function - Easy to break if we add/remove a color Dependency > Explicitness > Implicit data domain

611. How to remove implicit data domain Create a data type

     representing the data domain enum class BackgroundColor(val colorCode: Int) { RED(0xFF0000), GREEN(0x00FF00) } Dependency > Explicitness > Implicit data domain

612. How to remove implicit data domain Create a data type

     representing the data domain enum class BackgroundColor(val colorCode: Int) { RED(0xFF0000), GREEN(0x00FF00) } fun setViewBackgroundColor(color: BackgroundColor) { view.setBackgroundColor(color.colorCode) } Dependency > Explicitness > Implicit data domain

613. Other options instead of defining a type Options to consider

     for an invalid value - Just do nothing - Return an error value - Throw a runtime error (not recommended) Dependency > Explicitness > Implicit data domain

614. Other options instead of defining a type Options to consider

     for an invalid value - Just do nothing - Return an error value - Throw a runtime error (not recommended) Note 1: Documentation is required for any option Dependency > Explicitness > Implicit data domain

615. Other options instead of defining a type Options to consider

     for an invalid value - Just do nothing - Return an error value - Throw a runtime error (not recommended) Note 1: Documentation is required for any option Note 2: An "error value" may also require another data domain type Dependency > Explicitness > Implicit data domain

616. Implicit dependency example - Implicit data domain for parameters -

     Implicitly expected behavior of subtype Dependency > Explicitness > Subtype behavior

617. Implicit dependency by subtype A caller depends on the inherited

     type implicitly ┌───────────────────────┐ call ┌───────────────────────┐ │ ListenerInterface │◀─────────│ Caller │ └───────────────────────┘ └───────────────────────┘ ▲ │ inherit │ │ │ │ ┌───────────────────────┐ │ListenerImplementation │ └───────────────────────┘ Dependency > Explicitness > Subtype behavior

618. Implicit dependency by subtype A caller depends on the inherited

     type implicitly ┌───────────────────────┐ call ┌───────────────────────┐ │ ListenerInterface │◀─────────│ Caller │ └───────────────────────┘ └───────────────────────┘ ▲ │ inherit ┌─────┼───────────────────────┐ │ │ LargeClass │ │ │ ▲ │ │ │ │ │ │ ┌───────────────────────┐ │ │ │ListenerImplementation │ │ │ └───────────────────────┘ │ └─────────────────────────────┘ Dependency > Explicitness > Subtype behavior

619. Implicit dependency example by subtype interface ListenerInterface { fun queryInt():

     Int } class LargeClass { inner class ListenerImplementation : ListenerInterface { ... } } class Caller(listener : ListenerInterface) { ... } Dependency > Explicitness > Subtype behavior

620. What's wrong with subtype Depends on result of the function

     call on LargeClass implicitly - Does not appear on class diagram - Hard to find Caller relying on LargeClass implementation detail Dependency > Explicitness > Subtype behavior

621. How to remove implicit dependency Remove the interface if there

     is only one implementation ┌───────────────────────┐ call ┌───────────────────────┐ │ ListenerInterface │◀─────────│ Caller │ └───────────────────────┘ └───────────────────────┘ ▲ │ inherit ┌─────┼───────────────────────┐ │ │ LargeClass │ │ │ ▲ │ │ │ │ │ │ ┌───────────────────────┐ │ │ │ListenerImplementation │ │ │ └───────────────────────┘ │ └─────────────────────────────┘ Dependency > Explicitness > Subtype behavior

622. How to remove implicit dependency Remove the interface if there

     is only one implementation call ┌───────────────────────┐ ┌─────│ Caller │ │ └───────────────────────┘ │ │ ┌─────────────────────────────┐ │ │ LargeClass │ │ │ ▲ │ │ │ │ │ │ │ ┌───────────────────────┐ │ │ │ │ Listener │◀─┼─┘ │ └───────────────────────┘ │ └─────────────────────────────┘ Dependency > Explicitness > Subtype behavior

623. Fixed code example class LargeClass { inner class Listener {

     fun ... } } class Caller(listener : Listener) { ... } Dependency > Explicitness > Subtype behavior

624. Explicitness: Summary Make dependencies visible on a class diagram -

     Define types to represent data domain - Remove unnecessary interface Dependency > Explicitness > Summary

625. Summary - Coupling: Relax content/common/control coupling - Direction: Remove cyclic

     dependency as far as possible - Redundancy: Don't cascade or duplicate dependency set - Explicitness: Make dependency visible on a class diagram Dependency > Summary

626. Code-Readability / Session-8 Review #1

627. Contents of this lecture - Introduction and Principles - Natural

     language: Naming, Comments - Inner type structure: State, Procedure - Inter type structure: Dependency (two sessions) - Follow-up: Review Review > Introduction

628. Why do we need code review? Review > Introduction

629. Why do we need code review? Most important: Readability -

     Approve code change only when it is clean enough Review > Introduction

630. Why do we need code review? Most important: Readability -

     Approve code change only when it is clean enough Nice to have: Logic correctness - Edge cases, illegal state, race condition, exceptions... - Author's responsibility Review > Introduction

631. Topics Authors: - How to create PR - How to

     address review comment Reviewers: - Principles - Comment contents Review > Introduction

632. Topics Authors: - How to create PR - How to

     address review comment Reviewers: - Principles - Comment contents Review > Create PR

633. How to create PR - Tell your intention with commit

     structure - Keep your PR small Review > Create PR

634. How to create PR - Tell your intention with commit

     structure - Keep your PR small Review > Create PR

635. Commit structure - Squash unnecessary commits - Don't put logical

     change and syntax change into a commit - Think "cut of axis" for commits Review > Create PR > Commit structure

636. Commit structure - Squash unnecessary commits - Don't put logical

     change and syntax change into a commit - Think "cut of axis" for commits Review > Create PR > Commit structure > Squash unnecessary commits

637. Unnecessary commits Remove or squash "reverting commit" Review > Create

     PR > Commit structure > Squash unnecessary commits

638. Unnecessary commits Remove or squash "reverting commit" Bad example: Commit

     1: Add debug log Commit 2: Implement a method of feature X Commit 3: Remove debug log Review > Create PR > Commit structure > Squash unnecessary commits

639. How to remove unnecessary commits Use git rebase -i or

     similar command Review > Create PR > Commit structure > Squash unnecessary commits

640. How to remove unnecessary commits Use git rebase -i or

     similar command Fixed example: Commit 2: Implement a method of feature X Review > Create PR > Commit structure > Squash unnecessary commits

641. Commit structure - Squash unnecessary commits - Don't put logical

     change and syntax change into a commit - Think "cut of axis" for commits Review > Create PR > Commit structure > Logical and syntax change

642. Logical and syntax change in a commit Typical anti-patterns -

     IDE auto clean up + actual refactoring - Extracting as a function + function body refactoring - Renaming + non-trivial parameter type change Review > Create PR > Commit structure > Logical and syntax change

643. Logical and syntax change in a commit Typical anti-patterns -

     IDE auto clean up + actual refactoring - Extracting as a function + function body refactoring - Renaming + non-trivial parameter type change If it's hard to read, consider splitting the commit Review > Create PR > Commit structure > Logical and syntax change

644. Commit structure - Squash unnecessary commits - Don't put logical

     change and syntax change into a commit - Think "cut of axis" for commits Review > Create PR > Commit structure > Cut of axis

645. Example of splitting PR class Deprecated { fun functionA() {

     /* ... */ } fun functionB() { /* ... */ } } class New { /* ... */ } Review > Create PR > Commit structure > Cut of axis

646. Example of splitting PR class Deprecated { fun functionA() {

     /* ... */ } fun functionB() { /* ... */ } } class New { /* ... */ } Objective: Remove class Deprecated with moving the functions into class New Review > Create PR > Commit structure > Cut of axis

647. Axis options to consider Option A: Commit 1: Define New.functionA/functionB

     Commit 2: Replace receivers Deprecated with New Commit 3: Remove class Deprecated Review > Create PR > Commit structure > Cut of axis

648. Axis options to consider Option A: Commit 1: Define New.functionA/functionB

     Commit 2: Replace receivers Deprecated with New Commit 3: Remove class Deprecated Option B: Commit 1: Move Deprecated.functionA to New, and update the callers Commit 2: Move Deprecated.functionB to New, and update the callers Commit 3: Remove class Deprecated Review > Create PR > Commit structure > Cut of axis

649. Better option for axis Review > Create PR > Commit

     structure > Cut of axis

650. Better option for axis Option B is better than A

     Review > Create PR > Commit structure > Cut of axis

651. Better option for axis Option B is better than A

     Reason: - Easy to understand the intention - Verifiable that there is no logical change - Traceable commit history Review > Create PR > Commit structure > Cut of axis

652. How to create PR - Tell your intention with commit

     structure - Keep your PR small Review > Create PR > Keep PR small

653. Keep your PR small - Split your daily work into

     several PRs - Create supporting PRs - Specify the scope of a PR Review > Create PR > Keep PR small

654. Keep your PR small - Split your daily work into

     several PRs - Create supporting PRs - Specify the scope of a PR Review > Create PR > Keep PR small > Split daily work

655. Split your daily work into several PRs Don't create a

     large PR like "PR of the week" - Hard to read for reviewers - Makes review iteration long Two ways to split PRs: Top-down, Bottom-up Review > Create PR > Keep PR small > Split daily work

656. Top-down approach Fill implementation detail later Review > Create PR

     > Keep PR small > Split daily work

657. Top-down approach Fill implementation detail later 1. Create skeleton classes

     to explain the structure 2. Explain future plan with TODO and PR comments Review > Create PR > Keep PR small > Split daily work

658. Top-down approach Fill implementation detail later 1. Create skeleton classes

     to explain the structure 2. Explain future plan with TODO and PR comments class UserProfilePresenter( val userProfileUseCase: UseCase val profileRootView: View ) { fun showProfileImage() = TODO(...) fun addUserTag() = TODO(...) Review > Create PR > Keep PR small > Split daily work

659. Bottom-up approach Create small parts first Review > Create PR

     > Keep PR small > Split daily work

660. Bottom-up approach Create small parts first 1. Implement simple types/procedure

     without any client code 2. Explain future plan of client code with PR comments Review > Create PR > Keep PR small > Split daily work

661. Bottom-up approach Create small parts first 1. Implement simple types/procedure

     without any client code 2. Explain future plan of client code with PR comments data class UserProfileData(val ..., val ...) object UserNameStringUtils { fun String.normalizeEmoji(): String = ... fun isValidUserName(userName: String): Boolean = ... Review > Create PR > Keep PR small > Split daily work

662. Keep your PR small - Split your daily work into

     several PRs - Create supporting PRs - Specify the scope of a PR Review > Create PR > Keep PR small > Create supporting PRs

663. Create supporting PRs Question: How can you make PRs with

     the following situation? 1. You made commits of class New 2. You found New has code duplication with Old 3. You need a large change to consolidate the logic (>100 LOC) - Because there are already a lot of callers of Old Review > Create PR > Keep PR small > Create supporting PRs

664. Worst way to create a PR Commit1: Create a class

     "New" Commit2: Extract duplicated code of "New" and "Old" # >100 LOC Problem: The PR is large, and has two responsibilities Review > Create PR > Keep PR small > Create supporting PRs

665. Better way to create a PR PR1: Commit1: Create a

     class "New" PR2 (including PR1): Commit2: Extract duplicated code of "New" and "Old" # >100 LOC Problem: There is temporary code duplication - We may forget to create PR2 Review > Create PR > Keep PR small > Create supporting PRs

666. Best way to create a PR 1/3 Reorder, split, merge

     commits 1: Split Commit2 for New and Old Commit1: Create a class "New" Commit2_New: Extract code of "New" Commit2_Old: Extract code of "Old" Review > Create PR > Keep PR small > Create supporting PRs

667. Best way to create a PR 2/3 2: Move Commit2_Old

     to the first Commit2_Old: Extract code of "Old" Commit1: Create a class "New" Commit2_New: Extract code of "New" Review > Create PR > Keep PR small > Create supporting PRs

668. Best way to create a PR 3/3 3: Squash commits

     Commit1 and Commit2_New Commit2_Old: Extract code of "Old" Commit1: Create a class "New" 4: Create PRs for Commit2_Old and Commit1 Review > Create PR > Keep PR small > Create supporting PRs

669. Keep your PR small - Split your daily work into

     several PRs - Create supporting PRs - Specify the scope of a PR Review > Create PR > Keep PR small > Specify scope of PR

670. Conflict between author and reviewer Author's responsibility: - Keep the

     PR small Review > Create PR > Keep PR small > Specify scope of PR

671. Conflict between author and reviewer Author's responsibility: - Keep the

     PR small Reviewer's responsibility: - Don't approve if there is room to improve Review > Create PR > Keep PR small > Specify scope of PR

672. Conflict between author and reviewer Author's responsibility: - Keep the

     PR small Reviewer's responsibility: - Don't approve if there is room to improve These two responsibilities may conflict with each other Review > Create PR > Keep PR small > Specify scope of PR

673. Describe scope of PR Write PR comment and TODO comment

     to explain: - The main purpose - Future plan - Out of scope Review > Create PR > Keep PR small > Specify scope of PR

674. How to create PR: Summary Make readable PR that is

     structured and small - Make the objective of a PR/commits clear - Squash, split, reorder commits Review > Create PR > Summary

675. Topics Authors: - How to create PR - How to

     address review comment Reviewers: - Principles - Comment contents Review > Address review comment

676. Important point in addressing comments Review > Address review comment

677. Important point in addressing comments Don't just address comments Review

     > Address review comment

678. Don't just address comments - Think why reviewer asked/misunderstood -

     Understand reviewer's suggestion - Consider addressing a comment to other parts - Don't make reviewers repeat Review > Address review comment

679. Don't just address comments - Think why reviewer asked/misunderstood -

     Understand reviewer's suggestion - Consider addressing a comment to other parts - Don't make reviewers repeat Review > Address review comment

680. Think why reviewer asked/misunderstood Typical signal that the code is

     unreadable or wrong Review > Address review comment

681. Think why reviewer asked/misunderstood Typical signal that the code is

     unreadable or wrong Example of comment "Why do you check null here?": - Remove the null check if unnecessary - Write inline comment to explain why - Extract as a local value to explain (e.g., isUserExpired) Review > Address review comment

682. Don't just address comments - Think why reviewer asked/misunderstood -

     Understand reviewer's suggestion - Consider addressing a comment to other parts - Don't make reviewers repeat Review > Address review comment

683. Understand reviewer's suggestion Don't just paste attached code in a

     review comment - Think what is the key idea - Consider renaming - Confirm it's logically correct: exceptions, race conditions ... Review > Address review comment

684. Don't just address comments - Think why reviewer asked/misunderstood -

     Understand reviewer's suggestion - Consider addressing a comment to other parts - Don't make reviewers repeat Review > Address review comment

685. Consider addressing a comment to other parts Find similar code

     and address it Review > Address review comment

686. Consider addressing a comment to other parts Find similar code

     and address it Example of comment "Add @Nullable to this parameter": - Apply to other parameters - Apply to the return value - Apply to other functions Review > Address review comment

687. Don't just address comments - Think why reviewer asked/misunderstood -

     Understand reviewer's suggestion - Consider addressing a comment to other parts - Don't make reviewers repeat Review > Address review comment

688. Don't make reviewers repeat Check what you asked previously before

     sending a review request - Coding style and conventions - Natural language: word choice, grammar - Language/platform idiom - Conditional branch structure - Testing Review > Address review comment

689. Don't just address comment: Summary Understand what is the intention

     of a review comment - Find the key idea and reason of the comment - Try to apply it to other parts - Relieve reviewers' workload Review > Address review comment

690. Topics Authors: - How to create PR - How to

     address review comment Reviewers: - Principles - Comment contents Review > Reviewer principles

691. Principles for reviewers Don't be too kind Review > Reviewer

     principles

692. Principles for reviewers Don't be too kind (but be kind

     a little) Review > Reviewer principles

693. Principles for reviewers - Don't neglect review requests - Reject

     problematic PR - Don't guess author's situation - Consider other options of "answer" Review > Reviewer principles

694. Principles for reviewers - Don't neglect review requests - Reject

     problematic PR - Don't guess author's situation - Consider other options of "answer" Review > Reviewer principles > Don't neglect

695. Don't neglect review requests Define a reply time limit for

     the project - e.g., 24 hours of working days Question: What is the worst reaction to a review request? Review > Reviewer principles > Don't neglect

696. Reactions to review requests GOOD: NOT SO GOOD: - Simply

     ignore WORST: Review > Reviewer principles > Don't neglect

697. Reactions to review requests GOOD: NOT SO GOOD: - Simply

     ignore WORST: - Reply "I'll review" without review Review > Reviewer principles > Don't neglect

698. Reactions to review requests GOOD: - Review soon - Redirect

     to other reviewer - "I cannot review", "I'll be late"... NOT SO GOOD: - Simply ignore WORST: - Reply "I'll review" without review Review > Reviewer principles > Don't neglect

699. When you cannot review If you are busy, reply so

     Review > Reviewer principles > Don't neglect

700. When you cannot review If you are busy, reply so

     The author can: - Wait for the PR review if it doesn't block other tasks - Find other reviewers if it's an urgent PR Review > Reviewer principles > Don't neglect

701. Principles for reviewers - Don't neglect review requests - Reject

     problematic PR - Don't guess author's situation - Consider other options of "answer" Review > Reviewer principles > Reject problematic PR

702. Reject problematic PR Don't spend too much time reviewing a

     problematic PR Review > Reviewer principles > Reject problematic PR

703. Reject problematic PR Ask the author to re-create a PR

     without reading the detail Review > Reviewer principles > Reject problematic PR

704. Reject problematic PR Ask the author to re-create a PR

     without reading the detail Too large or hard to read: - Ask to split Review > Reviewer principles > Reject problematic PR

705. Reject problematic PR Ask the author to re-create a PR

     without reading the detail Too large or hard to read: - Ask to split Totally wrong on purpose, assumption, or structure: - Ask to make skeleton classes or have casual chat Review > Reviewer principles > Reject problematic PR

706. Principles for reviewers - Don't neglect review requests - Reject

     problematic PR - Don't guess author's situation - Consider other options of "answer" Review > Reviewer principles > Don't guess author's situation

707. Don't guess author's situation Reviewers should not care about deadline

     - Let them explain if they want to merge soon - Need to file issue tickets, and add TODO at least Review > Reviewer principles > Don't guess author's situation

708. Don't guess author's situation Reviewers should not care about deadline

     - Let them explain if they want to merge soon - Need to file issue tickets, and add TODO at least Exception: Major/critical issues on a release branch or hot-fix - Tests are still required - Reviewers should keep cooler than authors Review > Reviewer principles > Don't guess author's situation

709. Principles for reviewers - Don't neglect review requests - Reject

     problematic PR - Don't guess author's situation - Consider other options of "answer" Review > Reviewer principles > Review comment options

710. Options of a review comment The answer is not only

     showing answer Review > Reviewer principles > Review comment options

711. Options of a review comment The answer is not only

     showing answer To save reviewer's time and encourage authors' growth: - Ask questions to make the author come up with an idea - Suggest options to make the author decide - Leave a note to share knowledge Review > Reviewer principles > Review comment options

712. Principles for reviewers: Summary Don't be too kind, but help

     authors - Reply if you can't review - Fine to refuse problematic PR Review > Reviewer principles > Summary

713. Principles for reviewers: Summary Don't be too kind, but help

     authors - Reply if you can't review - Fine to refuse problematic PR Think what is the best comment - including time cost and author's growth Review > Reviewer principles > Summary

714. Topics Authors: - How to create PR - How to

     address review comment Reviewers: - Principles - Comment contents Review > Reviewer principles

715. What should be commented - Styles, conventions, idioms ... (CI

     can review instead) - Tests - All in this presentation series - Principles, natural language, structure, dependency - Any issues you found Review > Comment contents

716. What should be commented - Styles, conventions, idioms ... (CI

     can review instead) - Tests - All in this presentation series - Principles, natural language, structure, dependency - Any issues you found That's all! Review > Comment contents

717. Code review case study Adding a parameter to function Review

     > Comment contents > Case study

718. Code review case study Adding a parameter to function fun

     showPhotoView( photoData: PhotoData ) { if (!photoData.isValid) { return } ... Review > Comment contents > Case study

719. Code review case study Adding a parameter to function fun

     showPhotoView( photoData: PhotoData, isFromEditor: Boolean ) { if (!photoData.isValid) { if (isFromEditor) { showDialog() } return } ... Review > Comment contents > Case study

720. Code review case study Naming: Describe what it is rather

     than how it is used isFromEditor -> showsDialogOnError Review > Comment contents > Case study

721. Code review case study Naming: Describe what it is rather

     than how it is used fun showPhotoView( photoData: PhotoData, isFromEditor: Boolean ) { if (!photoData.isValid) { if (isFromEditor) { showDialog() } return } ... Review > Comment contents > Case study

722. Code review case study Naming: Describe what it is rather

     than how it is used fun showPhotoView( photoData: PhotoData, showsDialogOnError: Boolean ) { if (!photoData.isValid) { if (showsDialogOnError) { showDialog() } return } ... Review > Comment contents > Case study

723. Code review case study Dependency: Control coupling with a boolean

     flag Extract showDialog call Review > Comment contents > Case study

724. Code review case study Dependency: Control coupling with a boolean

     flag Extract showDialog call - For editor: val isViewShown = showPhotoView(...) if (!isViewShown) { showErrorDialog(...) } - For other place: showPhotoView(...) Review > Comment contents > Case study

725. Code review case study Dependency: Control coupling with a boolean

     flag fun showPhotoView(photoData: PhotoData): Boolean { if (!photoData.isValid) { return false } ... Review > Comment contents > Case study

726. Code review case study Comments: Comment if a function has

     both side-effect and return value Add comment to explain the return value Review > Comment contents > Case study

727. Code review case study Comments: Comment if a function has

     both side-effect and return value /** * Shows a photo at the center if the given photo data is ..., * and returns true. * Otherwise, this returns false without showing the view. */ fun showPhotoView(photoData: PhotoData): Boolean { if (!photoData.isValid) { return false } Review > Comment contents > Case study

728. What we comment: Summary Review the following items - Styles,

     conventions, manners, idioms ... - Principles, natural language, structure, dependency ... Review > Comment contents > Summary

729. What we comment: Summary Review the following items - Styles,

     conventions, manners, idioms ... - Principles, natural language, structure, dependency ... Read over "code readability" presentation Review > Comment contents > Summary

730. Summary Review is for readability Review > Summary

731. Summary Review is for readability Author: - Keep PR small

     and structured - Understand review comments, don't just address Review > Summary

732. Summary Review is for readability Author: - Keep PR small

     and structured - Understand review comments, don't just address Reviewer: - Don't be too kind, you can ask Review > Summary