mini erlang id1218 lecture 032009-11-02 christian schulte cschulte@kth.se software and computer...

MINI ERLANG

ID1218 Lecture 03 2009-11-02

Christian Schultecschulte@kth.se

Software and Computer SystemsSchool of Information and Communication

TechnologyKTH – Royal Institute of Technology

Stockholm, Sweden

Reminder & Overview

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Roadmap: MiniErlang

What to compute with MiniErlang expressions and programs

What are the results MiniErlang Values

What are the instructions for compound value construction and function

call How are functions called

parameters are passed by substitution considers only matching clauses clauses have patterns (we ignore guards)L03, 2009-11-02ID1218, Christian Schulte

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Evaluating Values

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ID1218, Christian Schulte

MiniErlang Values

A MiniErlang value is an integer or a list other values are similar

In short notationV := int | [] | [ V1 | V2 ]

known as BNF notation: discussed later so: values are referred to by V (possibly

subscripted) can be: any integer, the empty list, a cons

consisting of two values V1 and V2

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MiniErlang Expressions

A MiniErlang expression is a value, a variable, or a function call

E := int | [] | [ E1 | E2 ]

| X | F(E1,…, En)

expressions referred to by E variables referred to by X function names referred to by F

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MiniErlang Machine

MiniErlang machineEs ; Vs → Es’ ; Vs’

transforms a pair (separated by ;) of expression stack Es and value stack Vs

into a new pair of expression stack Es’ and value stack Vs’

Initial configuration: expression we want to evaluate on expression stack

Final configuration: single value as result on value stack

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Stacks

We write stacks asX1 … Xn Xr

top of stack X1

n-th element Xn more elements Xr empty stack

Pushing X to stack Xr: X Xr Popping X from stack X Xr: Xr

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MiniErlang Execution Idea

Simple case: an integer evaluates to itself

the result of an integer expression……is an integer value

MiniErlang machinei Er ; Vs → Er ; i Vs

if the expression stack has the integer i as top of stack…

execution yields: the expression i is popped from the expression stack and pushed on to the value stack

same for empty list L03, 2009-11-02ID1218, Christian Schulte

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MiniErlang Instruction Idea

How to evaluate a list expression [ E1 | E2 ]

first evaluate E1 , to a value V1, … then evaluate E2 , to a value V2, … then construct a new value [ V1 | V2 ]

Use an instruction that says: build a list makes the assumption that values needed are

on the value stack execution will pop two values, push a new list

value when [ E1 | E2 ] is executed, E1 and E2 and the

instruction CONS are pushed on the expression stack

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Evaluating a List Expression

Evaluate a list expression[E1|E2]Er ; Vs

→ E1E2CONSEr ; Vs

Execute a CONS instructionCONSEr ; V1V2Vs

→ Er ; [V2|V1]Vs

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Example

We want to evaluate the expression[1|[]] (that is, just the list [1])

Start configuration of our machine [1|[]] ;

expression stack: [1|[]] empty value stack:

What should be the end configuration: ; [1|[]]

empty expression stack: result on value stack: [1|[]]

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Let’s Do It!

[1|[]] ; → …

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[E1|E2]Er ; Vs→ E1E2CONSEr ; Vs

Let’s Do It!

[1|[]] ; → 1 []CONS ; → …

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i Er ; Vs → Er ; i Vs

Let’s Do It!

[1|[]] ; → 1 []CONS ; → []CONS ; 1→ …

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i Er ; Vs → Er ; i Vs

Let’s Do It!

[1|[]] ; → 1 []CONS ; → []CONS ; 1→ CONS ; []1→ …

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CONSEr ; V1V2Vs→ Er ; [V2|V1]Vs

Let’s Do It!

[1|[]] ; → 1 []CONS ; → []CONS ; 1→ CONS ; []1→ ; [1|[]]

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Summary

MiniErlang values expressions

MiniErlang machine operates on expression and value stack evaluates topmost expression on expr stack executes topmost instruction on expr stack

Start state: single expr on expr stack Final state: single value on value stack

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Executing Functions

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ID1218, Christian Schulte

Roadmap

How to evaluate arguments before executing function…

shuffle arguments on expression stack have a call instruction executing call instruction picks values from

value stack How to find the right clause

explain matching How to pass parameters

replace variables by substitution

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Evaluating Function Call

Evaluate call expressionF(E1, …, En)Er ; Vs

→ E1…EnCALL(F/n)Er ; Vs

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MiniErlang Patterns

Somehow: values + variables Or, crisply:

P := int | [] | [ P1 | P2 ] | X

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Pattern Matching

Pattern matching takes a pattern P and a value V and returns

true, iff the value matches the pattern If V matches P, a substitution is returned

for each variable in the pattern P a matching value

Substitutions are applied to expressions replacing variables by the respective values

Details come later, just the big picture now

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Pattern Matching Examples

[X|Xr] matches [2|[1|[]]] substitution { X 2, Xr [1|[]]}

[X|[X|Xr]] matches [2|[2|[]]] substitution { X 2, Xr []}

[X|[X|Xr]] does not match [2|[1|[]]]

no substitution, of course

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Substitution Examples

Application of substitution { X 2, Xr [1|[]]} to expression X+len(Xr) yields yields 2+len([1|[]])

We refer to substitutions by s application to expression E by s(E)

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Reminder: Call Expression

Evaluate call expressionF(E1, …, En)Er ; Vs

→ E1…EnCALL(F/n)Er ; Vs

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Executing CALL

CALL(F/n)Er ; V1…VnVs

→ s(E)Er ; Vs

F(P1, …, Pn) -> E is the first clause of F/n such that

the pattern [P1, …, Pn] matches…

…the list value [Vn, …, V1] with substitution s

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Example

Assume we want to evaluatef([1|[]])

where f/1 is defined by the single clausef([X|Xr]) -> [X|f(Xr)].

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Let’s Do It!

f([1|[]]) ; → [1|[]]CALL(f/1) ; → 1[]CONSCALL(f/1) ; → []CONSCALL(f/1) ; 1→ CONSCALL(f/1) ; []1→ CALL(f/1) ; [1|[]]→ [1|f([])] ; → …

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What Do We Ignore?

Runtime errors what if no clause matches

Simplistic values No un-nesting No guards

simple: just check guards on values No case and if expressions

rewrite to additional functions

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An Important Fact…

The expressions on the expression stack must have an essential property…

hmmm… Look to the example again!

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Last Call Optimization

MiniErlang has last call optimization (LCO) built in

remember what to do next on stack do not remember where to return to

What effect for recursive programs?

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MiniErlang Full Picture

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Making MiniErlang More Realistic Substitution replaces variables in clause

bodies by values values will be deconstructed and reconstructed

over and over again Add single rule that optimizes values

an expression that is a value can be directly moved from the expression to the value stack

subsumes the rules for integers and the empty list

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MiniErlang: Values, Expressions, Instructions MiniErlang values

V := int | [] | [ V1 | V2 ] MiniErlang expressions

E := int | [] | [ E1 | E2 ]

| X | F(E1,…, En) where X stands for a variable

MiniErlang instructionsCONS, CALL

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MiniErlang: Expressions

Evaluate valuesV Er ; Vs → Er ; V Vs

provided V is a value Evaluate list expression

[E1|E2]Er ; Vs

→ E1E2CONSEr ; Vs Evaluate function call

F(E1, …, En)Er ; Vs

→ E1…EnCALL(F/n)Er ; VsL03, 2009-11-02ID1218, Christian Schulte

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MiniErlang: Instructions

CONS instructionCONSEr ; V1V2Vs

→ Er ; [V2|V1]Vs CALL instruction

CALL(F/n)Er ; V1…VnVs

→ s(E)Er ; Vs F(P1, …, Pn) -> E first clause of F/n such that

[P1, …, Pn] matches [Vn, …,V1] with substitution s

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MiniErlang Pattern Matching

PatternsP := int | [] | [ P1 | P2 ] | X

match(P,V)s:=try(P,V)if errors or XV1, XV2 s withV1≠V2 then no else s

wheretry(i,i) = try([],[]) = try([P1|P2],[V1|V2])= try(P1,V1)try(P2,V2)

try(X,V) = {XV}otherwise = {error}

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Pattern Matching

Examplematch([A,A|[B|B]],[1,1,[]])

Uniform list notationmatch([A|[A|[B|B]]],[1|[1|[[]|[]]]])

Evaluate trytry([A|[A|[B|B]]],[1|[1|[[]|[]]]])

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Evaluating try

try([A|[A|[B|B]]],[1|[1|[[]|[]]]]) =try(A,1) try([A|[B|B]],[1|[[]|[]]]) ={A1} try(A,1) try([B|B],[[]|[]]) = {A1} {A1} try(B,[]) try(B,[]) ={A1} {B[]} {B[]} ={A1, B[]}

Matches with substitution: {A1, B[]}

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Pattern Matching

Examplematch([A,A|[B|B]],[1,2,[]])

Uniform list notationmatch([A|[A|[B|B]]],[1|[2|[[]|[]]]])

Evaluate trytry([A|[A|[B|B]]],[1|[2|[[]|[]]]])

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Evaluating try

try([A|[A|[B|B]]],[1|[2|[[]|[]]]]) =try(A,1) try([A|[B|B]],[2|[[]|[]]]) ={A1} try(A,2) try([B|B],[[]|[]]) = {A1} {A2} try(B,[]) try(B,[]) ={A1, A2} {B[]} {B[]} ={A1, A2, B[]}

Does not match!

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Substitution

Defined over structure of expressionss(i) = is([]) = []s([E1|E2]) = [s(E1)|s(E2)]

s(F(E1, …, En)) = F(s(E1), …, s(En))

s(X) = if XV s then V else X

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Matching and Substitutions

If P matches V with substitution ss=match(P,V)

thens(P)=V

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Substitution

Assume s= {A1, B[]} s([A|[A|[B|B]]]) =

[s(A)|s([A|[B|B]])] =[1|[s(A)|s([B|B])]] =[1|[1|[s(B)|s(B)]]] =[1|[1|[[]|[]]]]

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Extending MiniErlang

Built-in expressions, for example… evaluate addition

E1+E2Er ; Vs → E1E2ADDEr ; Vs execute ADD instructionADDEr ; V1V2Vs → Er ; V2+V1Vs

Comma operator sequence of expressions replace substitution by environment lookup value for variable from environment

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What Did We Actually Do?

Blueprint of MiniErlang implementation operational semantics capable of explaining how calls are handelled stack machine

A real implementation would statically replace (compilation) call and

list construction to the respective instructions would replace substitution by environments

(registers) …of a stack machine is the JVM!

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What Can We Answer

Faithful model for runtime measure: number of function calls all remaining operations are constant wrt

function calls

Faithful model for memory MiniErlang does not use heap memory: value

stack stack space: number of entries on either stack space: size of entries on either stack

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Homework

Hand execute app/2 in MiniErlang! Try all examples

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