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lesson3.slide
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Go language fundamentals, second part
Lesson 3
20 Sep 2019
Tags: golang, go
Pavel Tišnovský <[email protected]>
Red Hat, Inc.
https://github.com/RedHatOfficial/GoCourse
@RedHat
* Gophers
#The Go gopher was designed by Renee French. (http://reneefrench.blogspot.com/)
#Source https://golang.org/doc/gopher/fiveyears.jpg
#The design and this image is licensed under the Creative Commons 3.0 Attributions license.
.image ./common/fiveyears.jpg _ 900
############################################################
* Lesson #3
Outline:
- Lambda functions
- Closures
- Methods on types
- Interfaces
- Type assertions
- Overview of standard libraries
############################################################
* Lambda functions
- a.k.a. function literals
- https://golang.org/ref/spec#Function_literals
- can be assigned to a variable or invoked directly
* Typical usages for lambda functions
- go blocks
- defer statement
- callback functions
- 'compare' for sorting
* Function as a value (like any other value)
.play lesson3/01_func_type.go
* Function with parameters as a value (like any other value)
.play lesson3/02_func_type.go
* Functions stored in local variables (just a toy)
.play lesson3/03_functions_as_values.go
* Anonymous functions (just a toy again)
.play lesson3/04_lambdas.go
* Function types
- a new type `BinaryOp` is defined
- it is used to specify parameter type in `applyBinaryOp`
.play lesson3/05_function_type.go /^package main/,/^func testBinaryOps/
* Function types (cont.)
.play lesson3/05_function_type.go /^func testBinaryOps/,/^}/
############################################################
* Closures
- lambda functions that refer to variables defined outside the function
- it "closes over" another function -> the name closure
- code pointer and environment pointer internally
- useful for function that needs to store its state "somewhere"
* Practical example - sorting elements in slice
.play lesson3/06_sort_function.go /^package main/,/^func main/
* Practical example - sorting elements in slice (cont.)
.play lesson3/06_sort_function.go /^func main/,/^}/
* Practical example - sorting elements in a slice
- implemented as a closure
.play lesson3/07_sort_closure.go /^package main/,/^func main/
* Practical example - sorting elements in slice (cont.)
- implemented as a closure
.play lesson3/07_sort_closure.go /^func main/,/^}/
* Implementation of sort-by
.play lesson3/08_sort_by.go /^package main/,/^func main/
* Implementation of sort-by (cont.)
.play lesson3/08_sort_by.go /^func main/,/^}/
############################################################
* Methods on types
- a _method_ is a function that has a defined receiver
- (in OOP: a method is a function on an instance of an object)
- concept of a _receiver_
- usage - method declaration
func (receiver) method_name(parameters) return_types {
...
...
...
}
- method is called by
some_object.method_name(parameters)
- methods can modify (mutate) a receiver
- call by value vs. call by reference (via pointer)
* User type with one method
.play lesson3/09_methods.go
* Receiver used as a value
.play lesson3/10_methods_with_parameters.go
* Receiver used via pointer
.play lesson3/11_methods_ptr.go
* More methods for the same type
.play lesson3/12_more_methods.go
############################################################
* Interfaces
- set of methods required to implement such interface
- declared via `interface` keyword:
type XI interface {
method1()
method2(int) int
}
- interface type — variable of interface type, can hold any value implementing an interface
- variable of interface type *I* can hold any value _implementing_ *I*
* Implementing an interface
- a.k.a. _satisfying_ an interface
- no such keyword (`implements` or anything similar)
- in Go: every type which implements all interface’s method automatically satisfies such interface
* Embedding other interface(s)
- embedding other interfaces is possible
type XII interface {
m2()
XI
}
- order does not matter there
* Circular embedding
- disabled, detected by compiler
type I1 interface {
I2
method_i1()
}
type I2 interface {
I3
method_i2()
}
type I3 interface {
I1
method_i3()
}
* Declaration of two interfaces
.play lesson3/13_interface.go
* Missing interface implementation
.play lesson3/14_interface_missing_implementation.go /^package main/,/^func main/
* Missing interface implementation (cont.)
.play lesson3/14_interface_missing_implementation.go /^func main/,/^}/
* Implementation of an interface
.play lesson3/15_interface_implementation_via_methods.go /^package main/,/^func main/
* Implementation of an interface (cont.)
.play lesson3/15_interface_implementation_via_methods.go /^func main/,/^}/
* More implementations of one interface (1/5)
- the longest example :)
.play lesson3/16_more_interface_implementations.go /^package main/,/^type Line/
* More implementations of one interface (2/5)
.play lesson3/16_more_interface_implementations.go /^type Line/,/^func/
* More implementations of one interface (3/5)
.play lesson3/16_more_interface_implementations.go /^func \(line/,/^func main/
* More implementations of one interface (4/5)
.play lesson3/16_more_interface_implementations.go /^func main/,/cont/
* More implementations of one interface (5/5)
.play lesson3/16_more_interface_implementations.go /cont/,/^}/
* Empty interface
- is automatically satisfied by any type
- value of any type can be assigned to such interface type variable
.play lesson3/17_empty_interface.go
* `nil` interface
- Interface type value consists of two components: dynamic type and dynamic value
- *static* *type*: known by compiler, from the declaration
- *dynamic* *type*: type of assigned _value_
- *dynamic* *value*: the actual value assigned
- where's the problem?
- interface type value is `nil` iff both dynamic value *and* dynamic type are `nil`
- sometimes we get the impression that `nil != nil`
* `nil` interface
.play lesson3/18_nil_interface_riddle.go
* `nil` interface
.play lesson3/20_three_nil_interfaces.go
############################################################
* Type assertions
- access to an interface value's underlying concrete value
variable := iface.(Type)
- two operations:
- check that the interface value `iface` holds the concrete type `Type` (with panicking)
- assign the underlying `Type` value to the variable `variable`.
variable, ok := iface.(Type)
- check that the interface value `iface` holds the concrete type `Type`
- if check failed, `variable` will contain zero value and `ok` will be `true`
- if check passed, assign the underlying `Type` value to the variable `variable`, `ok` will be `false`
* Type assertions
.play lesson3/19_type_assertions.go
############################################################
* Overview of standard libraries
- Go is used for making CLI apps, network tools, web servers etc.
- it is reflected in its standard library
- https://golang.org/pkg/
############################################################
#last slide
* More Gophers
#The Go gopher was designed by Renee French. (http://reneefrench.blogspot.com/)
#Source https://golang.org/doc/gopher/bumper.png
#The design and this image is licensed under the Creative Commons 3.0 Attributions license.
.image ./common/bumper.png _ 900