PL Categories: Functional PLs Introduction to Haskell ...chappell/class/2017_spr/...Feb 22, 2017 · § Everyone agrees that Haskell is a functional PL. PLs generally agreed to be
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PL Categories: Functional PLsIntroduction to HaskellHaskell: Functions
CS F331 Programming LanguagesCSCE A331 Programming Language ConceptsLecture SlidesWednesday, February 22, 2017
Glenn G. ChappellDepartment of Computer ScienceUniversity of Alaska [email protected]
Shift-Reduce is a bottom-up, LR parsing algorithm.§ It is table-driven.§ Shift-Reduce is no longer used. However, a number of similar—but
more complicated—algorithms are heavily used.
A Shift-Reduce parser is a state machine with an associated stack.§ A stack item holds a symbol—terminal or nonterminal—and a state.§ The current state is the state in the top-of-stack item.§ The table has two parts: action table (rows are states, columns
are terminals) and goto table (rows are states, columns are nonterminals).
Operation§ Begin by pushing an item holding the start state (and any symbol).§ At each step, do a lookup in the action table, using the current state
and the current input symbol. Do what the action table entry says.
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ReviewShift-Reduce Parsing [2/2]
We constructed the following Shift-Reduce parsing table in class.
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STATE ACTION TABLE GOTO TABLE
Note Number ID ( ) $ all item
start: — 1 S2 S3 G8 G4
ID 2 R3( 3 S2 S3 G5
—item 4 S6
(item 5 S7
—item$ 6 R1
(item) 7 R2
—all 8 ACCEPT
3
ReviewParsing Wrap-Up — Efficiency of Parsing
Practical parsing algorithms:§ Cannot handle all CFLs.§ Run in linear time.
This includes Recursive Descent and Shift-Reduce.
There are parsing algorithms that can handle all CFLs. These are much slower and are mostly theoretical curiosities.
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PL Categories: Functional PLsBackground [1/3]
Functional programming (FP) is a programming style that generally has the following characteristics.§ Computation is considered primarily in terms of the evaluation of
functions (as opposed to execution of code).§ Thus, functions are a primary concern. Rather than considered as
repositories for code, functions are values to be constructed and manipulated.
§ Side effects & mutable data are avoided. The only job of a function is to return a value.§ A side effect occurs when a function alters data, and this alteration is
visible outside the function.§ Mutable data is data that can be altered.
In PLs like C++, Java, and Lua, we mostly do imperative programming: tell the computer what to do. An alternative is declarative programming: tell the computer what is true. FP is one kind of declarative programming. (We will look at another kind later in the semester.)
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PL Categories: Functional PLsBackground [2/3]
One can do FP, in some sense, in just about any PL. However, some PLs support it better than others.
A functional programming language is a PL designed to support FP well. This is thus a somewhat vague term.§ No one calls C a functional PL.§ Opinions vary about JavaScript.§ Everyone agrees that Haskell is a functional PL.
PLs generally agreed to be functional include Haskell, the ML family (ML, OCaml, F#), R, and Miranda.
In addition, the Lisp family (Common Lisp, Emacs Lisp, Scheme, Clojure, Racket, Logo) generally offers excellent support for FP, but is usually considered as a separate category.
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PL Categories: Functional PLsBackground [3/3]
FP and functional PLs have been around for many decades, but they remained largely the province of academia until two things happened.§ In the 1990s the problem of how to do interactive I/O in a purely
functional context was solved.§ In the years around 2000, serious attention was first given to the
practical issues of algorithmic efficiency and resource usage in a purely functional context.
Today, FP and functional PLs are becoming increasingly mainstream. Constructs inspired by FP are being introduced into a number of PLs.§ For example, lambda functions became part of C++ in the 2011
Recall that a type is first-class if its values can be tossed around with the same ease and facility as types like int in C++.
More formally, a type is first-class if its values can be used in each of the following ways.§ New values can be created from existing values at runtime.§ Values can be passed as arguments to functions and returned from
functions.§ Values can be stored in containers.
We are particularly interested in the idea of first-class functions.
A typical functional programming language has the following features/characteristics.§ It has first-class functions.§ It offers good support for higher-order functions.
§ A higher-order function is a function that acts on functions.§ It offers good support for recursion.§ It has a preference for immutable data.
A pure functional PL goes further, and does not support mutable data at all. There are no side effects in a pure functional PL.
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Introduction to HaskellHistory [1/2]
The next programming language we will look at is Haskell, named for Logician Haskell Curry (1900–1982).
Haskell was created as the result of a meeting in 1987. Some members of the FP community felt that their efforts were too fragmented. They decided to create a single PL intended to support research or development by large numbers of people.
The initial version of Haskell was released in 1990.In the 1990s, the problem of how to do interactive I/O without side
effects was solved, allowing Haskell and FP to enter the mainstream.
Various language definitions in the 1990s culminated in a long-term standard in 1998 (Haskell 98). This was implemented in Hugs, a simple interactive environment supported on all major platforms. There was also a full-featured compiler: the Glorious Glasgow Haskell Compiler (GHC). Hugs has since been folded into GHC; the interactive environment is now called GHCi.
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Introduction to HaskellHistory [2/2]
2009 saw the release of the Haskell Platform, a collection of libraries and tools with the goal of creating a high-quality, “batteries-included” collection of packages that all Haskell developers could have in common. A new release of the Haskell Platform comes once or twice each year.
A second Haskell standard was published in 2010 (Haskell 2010, or Haskell Prime). The is currently the most recent standard. A plan for yearly standards was announced, but it has not become a reality. A third Haskell standard is currently in the works.
Haskell is now a robust, well supported PL, suitable for large commercial projects. However, its unusual nature has led to a fair amount of resistance from traditionally minded programmers. The most recent TIOBE index—February 2017—lists Haskell as the 38th most popular PL (up from 40th a year ago and 46th two years ago).
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Introduction to HaskellCharacteristics — Type System [1/4]
Haskell is a pure functional PL. It has first-class functions and good support for higher-order functions.
Haskell has a sound static type system with sophisticated type inference. So typing is largely inferred, and thus implicit; however, we are allowed to use manifest typing, if we wish.
Haskell’s type-checking standards are difficult to place on the nominal-structural axis.
Haskell has few implicit type conversions. New implicit type conversions cannot be defined.
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Introduction to HaskellCharacteristics — Type System [2/4]
Like C++ and Java, Haskell does static typing of both variables and values. Unlike C++ and Java, Haskell includes excellent support for type inference (based on the Hindley-Milner type-inference algorithm). Thus, types usually do not need to be specified.
In C++:
int n = 3;
In Haskell:
n = 3
Of course, in Lua we can say that, too. But in contrast to Lua, the variable n has a type in Haskell (Integer in this case); the compiler is able to figure this out for us.
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Introduction to HaskellCharacteristics — Type System [3/4]
Haskell still allows type annotations, if desired. We can say:
n :: Integern = 3
This lets us communicate our intentions to be compiler. For example, the following is legal.
s = "abc"
But this will not compile:
s :: Integers = "abc" -- Type error: "abc" is not of type Integer
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Introduction to HaskellCharacteristics — Type System [4/4]
We can also use Haskell type annotations to restrict which types are allowed. Below is a function with its natural type annotation. Omitting this annotation would have the same result.
blug :: (Eq t, Num t) => t -> t -> Boolblug a b = (a == b+1)
The above says that blug is a function that takes two values of type t, where t is a numeric type with equality operations defined, and it returns a boolean.
But if we only want blug to take integers, then we can do this:
blug :: Integer -> Integer -> Boolblug a b = (a == b+1)
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Introduction to HaskellCharacteristics — Flow of Control
Haskell implementations are required to do tail call optimization(TCO). This means that the last operation in a function is not implemented via a function call, but rather as the equivalent of a goto, never returning to the original function.
Iteration is difficult without mutable data. And, indeed, Haskell has no iterative flow-of-control constructs. It uses recursion instead, with tail recursion preferred. The latter will generally be optimized using TCO.
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Introduction to HaskellCharacteristics — Syntax [1/2]
Haskell has a simple syntax, with less punctuation than C++—and even less than Lua. Here are function calls in C++ and Lua.
foo(a, b, c); // C++foo(a, b, c) -- Lua
Here is a more or less equivalent function call in Haskell.
foo a b c -- Haskell
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Introduction to HaskellCharacteristics — Syntax [2/2]
Haskell has significant indentation. Indenting is the usual way to indicate the start & end of a block. Here is Lua.
function bar(a)local b = 42 // Indented, but only forlocal c = 30 * b + 1 // readability; the compilerreturn foo(a, b, c) // ignores indentation.
end
And here is the more or less equivalent Haskell.
bar a = foo a b c whereb = 42c = 30 * b + 1 -- We MUST indent this line.
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Introduction to HaskellCharacteristics — Evaluation [1/2]
By default Haskell does lazy evaluation: expressions are not evaluated until they need to be. C++, Java, and Lua do the opposite, evaluating as soon as an expression is encountered; this is eager evaluation (or strict evaluation).
For example, here is a function in Lua, and then in Haskell.
function f(x, y)return x+1 -- y is not used
end
f x y = x+1 -- y is not used
We look at what eager evaluation vs. lazy evaluation means for these.
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Introduction to HaskellCharacteristics — Evaluation [2/2]
function f(x, y)return x+1 -- y is not used
end
Lua (eager). Do “f(g(1), g(2))”. Function g is called with 1. Then g is called with 2. The return values are passed to f.
f x y = x+1 -- y is not used
Haskell (lazy). Do “f (g 1) (g 2)”. Function f is called; this uses its first parameter (x), so g is called with argument 1, and its return value becomes x. Then f adds 1 to this and returns the result. The second call to g is never made.
If the return value of f is not used, then no calls to g are made!Lazy evaluation has other interesting consequences, as we will see.
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Introduction to HaskellBuild & Execution [1/3]
The standard filename suffix for Haskell source files is “.hs”.
GHC is a Haskell compiler that usually generates native machine code. On the command line, GHC is used much like g++, clang, or any other command-line compiler.
ghc myprog.hs –o myprog
If there are no errors, then an executable named “myprog” will be generated. Running that file will execute function main in module Main (a module in Haskell is much like a module in Lua).
Of course, if you are using an IDE, then things are handled differently. GHC is supported by various IDEs, including Eclipse.
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Introduction to HaskellBuild & Execution [2/3]
GHCi is an interactive environment that interprets Haskell code. Such an environment is often called a Read-Eval-Print Loop(REPL), a term originating with Lisp.
GHCi can load source files or evaluate entered Haskell expressions. Haskell is compiled to a bytecode, which is interpreted.
After running GHCi, you are presented with a prompt. GHCicommands begin with colon (:). Some important commands:
:l FILENAME.hsLoad & compile the given source file. Afterward, calls to functions in the file may be typed in at the prompt.
:r
Reload the last file loaded. Useful if you change a file.
Continued …
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Introduction to HaskellBuild & Execution [3/3]
Continuing with GHCi commands:
:t EXPRESSIONGet the type of a Haskell expression. The expression can involve variables and functions defined in a file that has been loaded.
:i IDENTIFIERGet information about the identifier: its type; precedence and associativity if it is an operator; perhaps the file it is defined in.
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Introduction to HaskellSome Programming
I have written a simple example Haskell program that computes Fibonacci numbers.
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See fibo.hs.
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Haskell: FunctionsBasic Syntax [1/3]
The material for this topic is also covered in a Haskell source file, which is extensively commented.
Haskell expression: stream of words separated by blanks where necessary. Optional parentheses for grouping.§ Each line below is a single Haskell expression. Type it at the GHCi
prompt and press <Enter> to see its value.
2+3(2+3)*5reverse "abcde"map (\ x -> x*x) [1,2,3,4]
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See func.hs.
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Haskell: FunctionsBasic Syntax [2/3]
Comments§ Single line, two dashes to end of line: -- …§ Multi-line, begin with brace-dash, end with dash-brace: {- … -}
Identifiers begin with letter or underscore, and contain only letters, underscores, digits, and single quotes (').§ Normal identifiers begin with lower-case letter or underscore. These
are used to name variables and functions.
myVariablemy_Function'_33
§ Special identifiers begin with UPPER-CASE letter. These are used to name types, modules, and constructors.
MyModule
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Haskell: FunctionsBasic Syntax [3/3]
Define a variable by giving its name, and equals sign (=) and an expression for the value.
ab'c = 7 * (3 + 2)
A variable definition is not an expression in Haskell.The above is legal in a Haskell source file. At the GHCi prompt it
We can use a regular function as an infix operator by surrounding its name with backquotes (`). Having defined function addem, try the following at the GHCi prompt.
2 `addem` 3
And we can use an operator as a regular function by surrounding its name with parentheses. Having defined +$+, try the following at the GHCi prompt.
(+$+) 5 7
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Haskell: FunctionsLocal Definitions
Use where to introduce a block (indent!) of local definitions.
plus_minus times a b c d = a_plus_b * c_minus_d wherea_plus_b = a + bc_minus_d = c - d
Local-definiton blocks can be nested.
twiceFactorial n = twice (factorial n) wheretwice k = two*k where
two = 2factorial 0 = 1factorial curr = curr * factorial prev where
prev = curr-1
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Haskell: FunctionsFunction Application & Currying
Currying mean simulating a multiparameter function using a single parameter function that returns a function.
For example, our function addem really takes one parameter. It returns a function that adds that parameter to something. The following are the same:
addem 2 3 -- Returns 5(addem 2) 3 -- Returns 5
We can give the intermediate function a name.
add2 = addem 2add2 3 -- Returns 5
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Haskell: FunctionsHigher-Order Functions
A higher-order function is a function that acts on functions.
rev f a b = f b a
sub a b = a - brsub = rev sub
sub 5 2 -- Returns 3rsub 5 2 -- Returns -3
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Haskell: FunctionsLambda Functions
A lambda function (or lambda expression) is a kind of expression whose value is a function.§ The name comes from the lambda calculus, a mathematical
system in which everything is a function. In this system, an unnamed function is introduced using the Greek letter lambda (λ).
§ Haskell uses a backslash (\) since it looks a bit like a lambda.
square x = x*xsquare’ = \ x -> x*x -- Using lambda function;
-- same as above
-- Alternate definitions for addemaddem’ = \ x y -> x+yaddem’’ a = \ y -> a+yaddem’’’ = \ x -> (\ y -> x+y)