Mobile App Development 2021W Lecture 3: Difference between revisions
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==Code== | ==Code== | ||
[https://homeostasis.scs.carleton.ca/~soma/mad-2021w/code/lec03-cmd.zip lec03-cmd.zip] | |||
===lec03-cmd/main.swift=== | |||
<syntaxhighlight lang="swift" line> | <syntaxhighlight lang="swift" line> | ||
// | |||
// main.swift | |||
// lec03-cmd | |||
// | |||
// Created by Anil Somayaji on 2021-01-18. | |||
// | |||
struct s { | |||
var v = 0 | |||
} | |||
class c { | |||
var v = 0 | |||
} | |||
class car { | |||
private var colour: String = "Red" | |||
func getColour () -> String { | |||
return colour | |||
} | |||
func setColour (c: String) { | |||
colour = c | |||
} | |||
init (c: String) { | |||
colour = c | |||
} | |||
} | |||
var saturn: car = car(c: "Red") | |||
saturn.setColour(c: "Blue") | |||
let newColour = saturn.getColour() | |||
print("Saturn colour is \(newColour).") | |||
var s1 = s() | |||
var s2 = s1 | |||
var c1 = c() | |||
var c2 = c1 | |||
c2.v = 5 | |||
s2.v = 5 | |||
print("c1.v = \(c1.v)") | |||
print("s1.v = \(s1.v)") | |||
</syntaxhighlight> | </syntaxhighlight> |
Latest revision as of 00:42, 20 January 2021
Video
Video from the lecture given on January 18, 2020 is now available.
Notes
Lecture 3 ------------ Tutorial 1 command line Swift Swift language concepts - class vs struct - types Most programming languages have ways to represent collections of data We normally call these objects nowadays, but objects have a few other properties abstract data types are what objects are based on normally we want to associate code with data - variabes and functions to go with it an abstract data type is this combination objects are abstract data types + inheritance roughly in swift, struct's are abstract data types, class's are objects - no inheritance with struct's but there's one other big difference - classes are reference types - struct's are value types Certificates - when you install an application, how do you know who created it? - is the code coming from a trusted source? - code signing certificates are how we make sure that code is legit - could still be malicious, but at least we'll know who to blame Every developer should have their own certificate that they use to sign their code when you install a program, the operating system checks the signature on the code to see if it is valid and associated with a trusted certificate - if it isn't, it doesn't allow the code to run (or it puts up big warnings that can be overridden) - "untrusted publisher" messages Underlying certificates is public key cryptography - a certificate is just a public key with associated metadata (i.e., someone's name email address, etc) Basic idea of public key crypto signatures - create a sig with private key - associated public key can verify signature - if it is verified, you know the signed data has not been tampered with and it was signed by someone with the private key Certificates are the basis of app stores - devices will only run code signed by trusted certificates - the app store controls what is trusted
Code
lec03-cmd/main.swift
//
// main.swift
// lec03-cmd
//
// Created by Anil Somayaji on 2021-01-18.
//
struct s {
var v = 0
}
class c {
var v = 0
}
class car {
private var colour: String = "Red"
func getColour () -> String {
return colour
}
func setColour (c: String) {
colour = c
}
init (c: String) {
colour = c
}
}
var saturn: car = car(c: "Red")
saturn.setColour(c: "Blue")
let newColour = saturn.getColour()
print("Saturn colour is \(newColour).")
var s1 = s()
var s2 = s1
var c1 = c()
var c2 = c1
c2.v = 5
s2.v = 5
print("c1.v = \(c1.v)")
print("s1.v = \(s1.v)")