5 Advanced Student
program | = | def-or-expr ... | ||||
def-or-expr | = | definition | ||||
| | expr | |||||
| | test-case | |||||
| | library-require | |||||
definition | = | (define (name variable ...) expr) | ||||
| | (define name expr) | |||||
| | (define-struct name (name ...)) | |||||
| | (define-datatype name (name name ...) ...) | |||||
expr | = | (begin expr expr ...) | ||||
| | (begin0 expr expr ...) | |||||
| | (set! variable expr) | |||||
| | (delay expr) | |||||
| | (lambda (variable ...) expr) | |||||
| | (λ (variable ...) expr) | |||||
| | (local [definition ...] expr) | |||||
| | (letrec ([name expr] ...) expr) | |||||
| | (shared ([name expr] ...) expr) | |||||
| | (let ([name expr] ...) expr) | |||||
| | (let name ([name expr] ...) expr) | |||||
| | (let* ([name expr] ...) expr) | |||||
| | (recur name ([name expr] ...) expr) | |||||
| | (expr expr ...) | |||||
| | (cond [expr expr] ... [expr expr]) | |||||
| | (cond [expr expr] ... [else expr]) | |||||
| |
| |||||
| |
| |||||
| | (match expr [pattern expr] ...) | |||||
| | (if expr expr expr) | |||||
| | (when expr expr) | |||||
| | (unless expr expr) | |||||
| | (and expr expr expr ...) | |||||
| | (or expr expr expr ...) | |||||
| | (time expr) | |||||
| | name | |||||
| | ’quoted | |||||
| | ‘quasiquoted | |||||
| | number | |||||
| | boolean | |||||
| | string | |||||
| | character | |||||
choice | = | name | ||||
| | number | |||||
pattern | = | _ | ||||
| | name | |||||
| | number | |||||
| | true | |||||
| | false | |||||
| | string | |||||
| | character | |||||
| | ’quoted | |||||
| | ‘quasiquoted-pattern | |||||
| | (cons pattern pattern) | |||||
| | (list pattern ...) | |||||
| | (list* pattern ...) | |||||
| | (struct id (pattern ...)) | |||||
| | (vector pattern ...) | |||||
| | (box pattern) | |||||
quasiquoted-pattern | = | name | ||||
| | number | |||||
| | string | |||||
| | character | |||||
| | (quasiquoted-pattern ...) | |||||
| | ’quasiquoted-pattern | |||||
| | ‘quasiquoted-pattern | |||||
| | ,pattern | |||||
| | ,@pattern | |||||
quoted | = | name | ||||
| | number | |||||
| | string | |||||
| | character | |||||
| | (quoted ...) | |||||
| | ’quoted | |||||
| | ‘quoted | |||||
| | ,quoted | |||||
| | ,@quoted | |||||
quasiquoted | = | name | ||||
| | number | |||||
| | string | |||||
| | character | |||||
| | (quasiquoted ...) | |||||
| | ’quasiquoted | |||||
| | ‘quasiquoted | |||||
| | ,expr | |||||
| | ,@expr | |||||
test-case | = | (check-expect expr expr) | ||||
| | (check-within expr expr expr) | |||||
| | (check-error expr expr ...) | |||||
| | (check-member-of expr expr expr) | |||||
| | (check-range expr expr) | |||||
| | (check-range expr) | |||||
library-require | = | (require string) | ||||
| | (require (lib string string ...)) | |||||
| | (require (planet string package)) | |||||
package | = | (string string number number) |
5.1 Pre-Defined Variables
value
empty : empty?
value
true : boolean?
value
false : boolean?
5.2 Template Variables
syntax
syntax
syntax
syntax
syntax
5.3 Syntax for Advanced
In Advanced, set! can be used to mutate variables, and define-struct’s structures are mutatable. define and lambda can define functions of zero arguments, and function calls can invoke functions of zero arguments.
syntax
(lambda (variable ...) expression)
syntax
(λ (variable ...) expression)
syntax
(expression expression ...)
The function being called must come from either a definition appearing before the function call, or from a lambda expression. The number of argument expressions must be the same as the number of arguments expected by the function.
syntax
(define-datatype dataype-name [variant-name field-name ...] ...)
(define-datatype datatype-name [variant-name field-name ...] ...)
(define (datatype-name? x) (or (variant-name? x) ...)) (define-struct variant-name (field-name ...)) ...
syntax
(begin expression expression ...)
syntax
(begin0 expression expression ...)
syntax
(set! variable expression)
syntax
(delay expression)
syntax
(shared ([name expression] ...) expression)
syntax
(recur name ([name expression] ...) expression)
More precisely, the following recur:
(recur func-name ([arg-name arg-expression] ...) body-expression)
is equivalent to:
(local [(define (func-name arg-name ...) body-expression)] (func-name arg-expression ...))
syntax
(let name ([name expression] ...) expression)
syntax
(case expression [(choice ...) expression] ... [(choice ...) expression])
syntax
(match expression [pattern expression] ...)
syntax
(when test-expression body-expression)
syntax
(unless test-expression body-expression)
5.4 Common Syntaxes
The following syntaxes behave the same in the Advanced level as they did in the Intermediate Student with Lambda level.
syntax
(local [definition ...] expression)
syntax
(letrec ([name expr-for-let] ...) expression)
syntax
(let* ([name expr-for-let] ...) expression)
syntax
(let ([name expr-for-let] ...) expression)
syntax
(time expression)
syntax
(define (name variable variable ...) expression)
syntax
(define name expression)
syntax
(define-struct structure-name (field-name ...))
make-structure-name : takes a number of arguments equal to the number of fields in the structure, and creates a new instance of that structure.
structure-name-field-name : takes an instance of the structure and returns the value in the field named by field-name.
structure-name? : takes any value, and returns true if the value is an instance of the structure.
The name of the new functions introduced by define-struct must not be the same as that of other functions or variables, otherwise define-struct reports an error.
set-structure-name-field-name! : takes an instance of the structure and a value, and mutates the instance’s field to the given value.
syntax
(cond [question-expression answer-expression] ...)
(cond [question-expression answer-expression] ... [else answer-expression])
If none of the question-expressions evaluates to true, cond’s value is the answer-expression of the else clause. If there is no else, cond reports an error. If the result of a question-expression is neither true nor false, cond also reports an error.
syntax
(if test-expression then-expression else-expression)
syntax
(and expression expression expression ...)
syntax
(or expression expression expression ...)
syntax
(check-expect expression expected-expression)
syntax
(check-within expression expected-expression delta)
It is an error for expressions or expected-expression to produce a function value.
syntax
(check-error expression expected-error-message)
(check-error expression)
syntax
(check-member-of expression expression expression ...)
syntax
(check-range expression low-expression high-expression)
syntax
(require string)
syntax
(require module-name)
syntax
(require (lib string string ...))
syntax
(require (planet string (string string number number)))
syntax
(require (planet id))
syntax
(require (planet string))
The full grammar for planet requires is given in Importing and Exporting: require and provide, but the best place to find examples of the syntax is on the the PLaneT server, in the description of a specific package.
5.5 Pre-Defined Functions
5.5.1 Numbers: Integers, Rationals, Reals, Complex, Exacts, Inexacts
procedure
(- x y ...) → number
x : number y : number
> (- 5) -5
> (- 5 3) 2
> (- 5 3 1) 1
procedure
(< x y z ...) → boolean?
x : real y : real z : real
> (< 42 2/5) false
procedure
(<= x y z ...) → boolean?
x : real y : real z : real
> (<= 42 2/5) false
procedure
(= x y z ...) → boolean?
x : number y : number z : number
> (= 42 2/5) false
procedure
(> x y z ...) → boolean?
x : real y : real z : real
> (> 42 2/5) true
procedure
(>= x y z ...) → boolean?
x : real y : real z : real
> (>= 42 42) true
procedure
(abs x) → real
x : real
> (abs -12) 12
procedure
(acos x) → number
x : number
> (acos 0) #i1.5707963267948966
procedure
(add1 x) → number
x : number
> (add1 2) 3
procedure
(angle x) → real
x : number
> (angle (make-polar 3 4)) #i-2.2831853071795867
procedure
(asin x) → number
x : number
> (asin 0) 0
procedure
(atan x y) → number
x : number y : number
> (atan 0) 0
> (atan 3 4) #i0.6435011087932844
procedure
(ceiling x) → integer
x : real
> (ceiling 12.3) #i13.0
procedure
(complex? x) → boolean?
x : any/c
> (real? 1-2i) false
procedure
(conjugate x) → number
x : number
> (conjugate (make-polar 3 4)) #i-1.960930862590836+2.2704074859237844i
procedure
(cos x) → number
x : number
> (cos pi) #i-1.0
procedure
(cosh x) → number
x : number
> (cosh 10) #i11013.232920103324
procedure
(current-seconds) → integer
> (current-seconds) 1359662824
procedure
(denominator x) → integer
x : rational?
> (denominator 2/3) 3
> e #i2.718281828459045
procedure
(even? x) → boolean?
x : integer
> (even? 2) true
procedure
(exact->inexact x) → number
x : number
> (exact->inexact 12) #i12.0
procedure
(exact? x) → boolean?
x : number
> (exact? (sqrt 2)) false
procedure
(exp x) → number
x : number
> (exp -2) #i0.1353352832366127
procedure
(expt x y) → number
x : number y : number
> (expt 16 1/2) 4
> (expt 3 -4) 1/81
procedure
(floor x) → integer
x : real
> (floor 12.3) #i12.0
procedure
(gcd x y ...) → integer
x : integer y : integer
> (gcd 6 12 8) 2
procedure
(imag-part x) → real
x : number
> (imag-part 3+4i) 4
procedure
(inexact->exact x) → number
x : number
> (inexact->exact 12.0) 12
procedure
(inexact? x) → boolean?
x : number
> (inexact? 1-2i) false
procedure
(integer->char x) → char
x : exact-integer?
> (integer->char 42) #\*
procedure
(integer-sqrt x) → integer
x : number
> (sqrt 11) #i3.3166247903554
procedure
(integer? x) → boolean?
x : any/c
> (integer? (sqrt 2)) false
procedure
(lcm x y ...) → integer
x : integer y : integer
> (lcm 6 12 8) 24
procedure
(log x) → number
x : number
> (log 12) #i2.4849066497880004
procedure
(magnitude x) → real
x : number
> (magnitude (make-polar 3 4)) #i3.0
procedure
(make-polar x y) → number
x : real y : real
> (make-polar 3 4) #i-1.960930862590836-2.2704074859237844i
procedure
(make-rectangular x y) → number
x : real y : real
> (make-rectangular 3 4) 3+4i
procedure
(max x y ...) → real
x : real y : real
> (max 3 2 8 7 2 9 0) 9
procedure
(min x y ...) → real
x : real y : real
> (min 3 2 8 7 2 9 0) 0
procedure
(modulo x y) → integer
x : integer y : integer
> (modulo 9 2) 1
> (modulo 3 -4) -1
procedure
(negative? x) → boolean?
x : number
> (negative? -2) true
procedure
(number->string x) → string
x : number
> (number->string 42) "42"
procedure
(number? n) → boolean?
n : any/c
> (number? "hello world") false
> (number? 42) true
procedure
(numerator x) → integer
x : rational?
> (numerator 2/3) 2
procedure
(odd? x) → boolean?
x : integer
> (odd? 2) false
> pi #i3.141592653589793
procedure
(positive? x) → boolean?
x : number
> (positive? -2) false
procedure
(quotient x y) → integer
x : integer y : integer
> (quotient 9 2) 4
> (quotient 3 4) 0
procedure
(random x) → integer
x : integer
> (random) #i0.5513340634474264
procedure
(rational? x) → boolean?
x : any/c
> (rational? 1-2i) false
procedure
(real-part x) → real
x : number
> (real-part 3+4i) 3
procedure
(real? x) → boolean?
x : any/c
> (real? 1-2i) false
procedure
(remainder x y) → integer
x : integer y : integer
> (remainder 9 2) 1
> (remainder 3 4) 3
procedure
(round x) → integer
x : real
> (round 12.3) #i12.0
procedure
(sgn x) → (union 1 1.0 0 0.0 -1 -1.0)
x : real
> (sgn -12) -1
procedure
(sin x) → number
x : number
> (sin pi) #i1.2246467991473532e-16
procedure
(sinh x) → number
x : number
> (sinh 10) #i11013.232874703393
procedure
(sqr x) → number
x : number
> (sqr 8) 64
procedure
(sqrt x) → number
x : number
> (sqrt 9) 3
> (sqrt 2) #i1.4142135623730951
procedure
(sub1 x) → number
x : number
> (sub1 2) 1
procedure
(tan x) → number
x : number
> (tan pi) #i-1.2246467991473532e-16
procedure
(zero? x) → boolean?
x : number
> (zero? 2) false
5.5.2 Booleans
procedure
(boolean=? x y) → boolean?
x : boolean? y : boolean?
> (boolean=? true false) false
procedure
(boolean? x) → boolean?
x : any/c
> (boolean? 42) false
> (boolean? false) true
procedure
(false? x) → boolean?
x : any/c
> (false? false) true
procedure
(not x) → boolean?
x : boolean?
> (not false) true
5.5.3 Symbols
procedure
(symbol->string x) → string
x : symbol
> (symbol->string 'c) "c"
procedure
(symbol=? x y) → boolean?
x : symbol y : symbol
> (symbol=? 'a 'b) false
procedure
(symbol? x) → boolean?
x : any/c
> (symbol? 'a) true
5.5.4 Lists
procedure
(append l ...) → (listof any)
l : (listof any)
procedure
(assoc x l) → (union (listof any) false)
x : any l : (listof any)
> (assoc "hello" '(("world" 2) ("hello" 3) ("good" 0))) (list "hello" 3)
procedure
(assq x l) → (union false cons?)
x : any/c l : list?
> a (list (list 'a 22) (list 'b 8) (list 'c 70))
> (assq 'b a) (list 'b 8)
procedure
(caaar x) → any/c
x : list?
> w (list (list (list (list "bye") 3) true) 42)
> (caaar w) (list "bye")
procedure
(caadr x) → any/c
x : list?
> z (list (list (list (list 'a 'b) 2 3)) (list false true) "world")
> (caadr z) false
procedure
(caar x) → any/c
x : list?
> y (list (list (list 1 2 3) false "world"))
> (caar y) (list 1 2 3)
procedure
(cadar x) → any/c
x : list?
> w (list (list (list (list "bye") 3) true) 42)
> (cadar w) true
procedure
(cadddr x) → any/c
x : list?
> v (list 1 2 3 4 5 6 7 8 9 'A)
> (cadddr v) 4
procedure
(caddr x) → any/c
x : list?
> x (list 2 "hello" true)
> (caddr x) true
procedure
(cadr x) → any/c
x : list?
> x (list 2 "hello" true)
> (cadr x) "hello"
procedure
(car x) → any/c
x : cons?
> x (list 2 "hello" true)
> (car x) 2
procedure
(cdaar x) → any/c
x : list?
> w (list (list (list (list "bye") 3) true) 42)
> (cdaar w) (list 3)
procedure
(cdadr x) → any/c
x : list?
> z (list (list (list (list 'a 'b) 2 3)) (list false true) "world")
> (cdadr z) (list true)
procedure
(cdar x) → list?
x : list?
> y (list (list (list 1 2 3) false "world"))
> (cdar y) (list false "world")
procedure
(cddar x) → any/c
x : list?
> w (list (list (list (list "bye") 3) true) 42)
> (cddar w) empty
procedure
(cdddr x) → any/c
x : list?
> v (list 1 2 3 4 5 6 7 8 9 'A)
> (cdddr v) (list 4 5 6 7 8 9 'A)
procedure
(cddr x) → list?
x : list?
> x (list 2 "hello" true)
> (cddr x) (list true)
procedure
(cdr x) → any/c
x : cons?
> x (list 2 "hello" true)
> (cdr x) (list "hello" true)
procedure
(cons x l) → (listof X)
x : X l : (listof X)
procedure
(cons? x) → boolean?
x : any/c
> (cons? (cons 1 empty)) true
> (cons? 42) false
procedure
(eighth x) → any/c
x : list?
> v (list 1 2 3 4 5 6 7 8 9 'A)
> (eighth v) 8
procedure
(empty? x) → boolean?
x : any/c
> (empty? empty) true
> (empty? 42) false
procedure
(fifth x) → any/c
x : list?
> v (list 1 2 3 4 5 6 7 8 9 'A)
> (fifth v) 5
procedure
(first x) → any/c
x : cons?
> x (list 2 "hello" true)
> (first x) 2
procedure
(fourth x) → any/c
x : list?
> v (list 1 2 3 4 5 6 7 8 9 'A)
> (fourth v) 4
procedure
(length l) → natural-number?
l : list?
> x (list 2 "hello" true)
> (length x) 3
procedure
(list x ...) → list?
x : any/c
> (list 1 2 3 4 5 6 7 8 9 0)
(cons
1
(cons
2
(cons
3
(cons
4
(cons
5
(cons 6 (cons 7 (cons 8 (cons 9 (cons 0 empty))))))))))
procedure
(list* x ... l) → (listof any)
x : any l : (listof any)
procedure
(list-ref x i) → any/c
x : list? i : natural?
> v (list 1 2 3 4 5 6 7 8 9 'A)
> (list-ref v 9) 'A
procedure
(list? x) → boolean
x : any
procedure
(make-list i x) → list?
i : natural-number x : any/c
> (make-list 3 "hello") (cons "hello" (cons "hello" (cons "hello" empty)))
procedure
(member x l) → boolean?
x : any/c l : list?
> x (list 2 "hello" true)
> (member "hello" x) true
procedure
(member? x l) → boolean?
x : any/c l : list?
> x (list 2 "hello" true)
> (member? "hello" x) true
procedure
(memq x l) → boolean?
x : any/c l : list?
> x (list 2 "hello" true)
> (memq (list (list 1 2 3)) x) false
procedure
(memq? x l) → boolean?
x : any/c l : list?
> x (list 2 "hello" true)
> (memq? (list (list 1 2 3)) x) false
procedure
(memv x l) → (or/c false list)
x : any/c l : list?
> x (list 2 "hello" true)
> (memv (list (list 1 2 3)) x) false
> null empty
procedure
(null? x) → boolean?
x : any/c
> (null? empty) true
> (null? 42) false
procedure
(range start end step) → list?
start : number end : number step : number
> (range 0 10 2) (cons 0 (cons 2 (cons 4 (cons 6 (cons 8 empty)))))
procedure
(remove x l) → list?
x : any/c l : list?
> x (list 2 "hello" true)
> (remove "hello" x) (list 2 true)
procedure
(rest x) → any/c
x : cons?
> x (list 2 "hello" true)
> (rest x) (list "hello" true)
procedure
(reverse l) → list
l : list?
> x (list 2 "hello" true)
> (reverse x) (list true "hello" 2)
procedure
(second x) → any/c
x : list?
> x (list 2 "hello" true)
> (second x) "hello"
procedure
(seventh x) → any/c
x : list?
> v (list 1 2 3 4 5 6 7 8 9 'A)
> (seventh v) 7
procedure
(sixth x) → any/c
x : list?
> v (list 1 2 3 4 5 6 7 8 9 'A)
> (sixth v) 6
procedure
(third x) → any/c
x : list?
> x (list 2 "hello" true)
> (third x) true
5.5.5 Posns
procedure
(make-posn x y) → posn
x : any/c y : any/c
> (make-posn 3 3) (posn 3 3)
> (make-posn "hello" true) (posn "hello" true)
procedure
(posn) → signature
procedure
(posn-x p) → any
p : posn
> p (posn 2 -3)
> (posn-x p) 2
procedure
(posn-y p) → any
p : posn
> p (posn 2 -3)
> (posn-y p) -3
procedure
(posn? x) → boolean?
x : any/c
> q (posn "bye" 2)
> (posn? q) true
> (posn? 42) false
procedure
(set-posn-x! p x) → void?
p : posn x : any
> p (posn 2 -3)
> (set-posn-x! p 678)
> p (posn 678 -3)
procedure
(set-posn-y! p x) → void
p : posn x : any
> q (posn "bye" 2)
> (set-posn-y! q 678)
> q (posn "bye" 678)
5.5.6 Characters
procedure
(char->integer c) → integer
c : char
> (char->integer #\a) 97
> (char->integer #\z) 122
procedure
(char-alphabetic? c) → boolean?
c : char
> (char-alphabetic? #\Q) true
procedure
(char-ci<=? c d e ...) → boolean?
c : char d : char e : char
> (char-ci<=? #\b #\B) true
> (char<=? #\b #\B) false
procedure
(char-ci<? c d e ...) → boolean?
c : char d : char e : char
> (char-ci<? #\B #\c) true
> (char<? #\b #\B) false
procedure
(char-ci=? c d e ...) → boolean?
c : char d : char e : char
> (char-ci=? #\b #\B) true
procedure
(char-ci>=? c d e ...) → boolean?
c : char d : char e : char
> (char-ci>=? #\b #\C) false
> (char>=? #\b #\C) true
procedure
(char-ci>? c d e ...) → boolean?
c : char d : char e : char
> (char-ci>? #\b #\B) false
> (char>? #\b #\B) true
procedure
(char-downcase c) → char
c : char
> (char-downcase #\T) #\t
procedure
(char-lower-case? c) → boolean?
c : char
> (char-lower-case? #\T) false
procedure
(char-numeric? c) → boolean?
c : char
> (char-numeric? #\9) true
procedure
(char-upcase c) → char
c : char
> (char-upcase #\t) #\T
procedure
(char-upper-case? c) → boolean?
c : char
> (char-upper-case? #\T) true
procedure
(char-whitespace? c) → boolean?
c : char
> (char-whitespace? #\tab) true
procedure
(char<=? c d e ...) → boolean?
c : char d : char e : char
> (char<=? #\a #\a #\b) true
procedure
(char<? x d e ...) → boolean?
x : char d : char e : char
> (char<? #\a #\b #\c) true
procedure
(char=? c d e ...) → boolean?
c : char d : char e : char
> (char=? #\b #\a) false
procedure
(char>=? c d e ...) → boolean?
c : char d : char e : char
> (char>=? #\b #\b #\a) true
procedure
(char>? c d e ...) → boolean?
c : char d : char e : char
> (char>? #\A #\z #\a) false
procedure
(char? x) → boolean?
x : any/c
> (char? "a") false
> (char? #\a) true
5.5.7 Strings
procedure
(explode s) → (listof string)
s : string
> (explode "cat") (list "c" "a" "t")
procedure
(format f x ...) → string
f : string x : any/c
> (format "Dear Dr. ~a:" "Flatt") "Dear Dr. Flatt:"
> (format "Dear Dr. ~s:" "Flatt") "Dear Dr. \"Flatt\":"
> (format "the value of ~s is ~a" '(+ 1 1) (+ 1 1)) "the value of (+ 1 1) is 2"
procedure
(implode l) → string
l : list?
> (implode (cons "c" (cons "a" (cons "t" empty)))) "cat"
procedure
(int->string i) → string
i : integer
> (int->string 65) "A"
procedure
(list->string l) → string
l : list?
> (list->string (cons #\c (cons #\a (cons #\t empty)))) "cat"
procedure
(make-string i c) → string
i : natural-number c : char
> (make-string 3 #\d) "ddd"
procedure
(replicate i s) → string
i : natural-number s : string
> (replicate 3 "h") "hhh"
procedure
(string c ...) → string?
c : char
> (string #\d #\o #\g) "dog"
procedure
(string->int s) → integer
s : string
> (string->int "a") 97
procedure
(string->list s) → (listof char)
s : string
> (string->list "hello") (list #\h #\e #\l #\l #\o)
procedure
(string->number s) → (union number false)
s : string
> (string->number "-2.03") #i-2.03
> (string->number "1-2i") 1-2i
procedure
(string->symbol s) → symbol
s : string
> (string->symbol "hello") 'hello
procedure
(string-alphabetic? s) → boolean?
s : string
> (string-alphabetic? "123") false
> (string-alphabetic? "cat") true
procedure
(string-append s ...) → string
s : string
> (string-append "hello" " " "world" " " "good bye") "hello world good bye"
procedure
(string-ci<=? s t x ...) → boolean?
s : string t : string x : string
> (string-ci<=? "hello" "WORLD" "zoo") true
procedure
(string-ci<? s t x ...) → boolean?
s : string t : string x : string
> (string-ci<? "hello" "WORLD" "zoo") true
procedure
(string-ci=? s t x ...) → boolean?
s : string t : string x : string
> (string-ci=? "hello" "HellO") true
procedure
(string-ci>=? s t x ...) → boolean?
s : string t : string x : string
> (string-ci>? "zoo" "WORLD" "hello") true
procedure
(string-ci>? s t x ...) → boolean?
s : string t : string x : string
> (string-ci>? "zoo" "WORLD" "hello") true
procedure
(string-contains? s t) → boolean?
s : string t : string
> (string-contains? "at" "cat") true
procedure
(string-copy s) → string
s : string
> (string-copy "hello") "hello"
procedure
(string-ith s i) → 1string?
s : string i : natural-number
> (string-ith "hello world" 1) "e"
procedure
(string-length s) → nat
s : string
> (string-length "hello world") 11
procedure
(string-lower-case? s) → boolean?
s : string
> (string-lower-case? "CAT") false
procedure
(string-numeric? s) → boolean?
s : string
> (string-numeric? "123") true
> (string-numeric? "1-2i") false
procedure
(string-ref s i) → char
s : string i : natural-number
> (string-ref "cat" 2) #\t
procedure
(string-upper-case? s) → boolean?
s : string
> (string-upper-case? "CAT") true
procedure
(string-whitespace? s) → boolean?
s : string
> (string-whitespace? (string-append " " (string #\tab #\newline #\return))) true
procedure
(string<=? s t x ...) → boolean?
s : string t : string x : string
> (string<=? "hello" "hello" "world" "zoo") true
procedure
(string<? s t x ...) → boolean?
s : string t : string x : string
> (string<? "hello" "world" "zoo") true
procedure
(string=? s t x ...) → boolean?
s : string t : string x : string
> (string=? "hello" "world") false
> (string=? "bye" "bye") true
procedure
(string>=? s t x ...) → boolean?
s : string t : string x : string
> (string>=? "zoo" "zoo" "world" "hello") true
procedure
(string>? s t x ...) → boolean?
s : string t : string x : string
> (string>? "zoo" "world" "hello") true
procedure
(string? x) → boolean?
x : any/c
> (string? "hello world") true
> (string? 42) false
procedure
(substring s i j) → string
s : string i : natural-number j : natural-number
> (substring "hello world" 1 5) "ello"
> (substring "hello world" 4) "o world"
5.5.8 Images
procedure
(image=? i j) → boolean?
i : image j : image
> c1 > (image=? (circle 5 "solid" "green") c1) false
> (image=? (circle 10 "solid" "green") c1) true
procedure
(image? x) → boolean?
x : any/c
> c1 > (image? c1) true
5.5.9 Misc
procedure
(=~ x y z) → boolean?
x : number y : number z : non-negative-real
> (=~ 1.01 1.0 0.1) true
> (=~ 1.01 1.5 0.1) false
procedure
(current-milliseconds) → exact-integer
> (current-milliseconds) 1359662823178
> eof #<eof>
procedure
(eof-object? x) → boolean?
x : any/c
> (eof-object? eof) true
> (eof-object? 42) false
procedure
(eq? x y) → boolean?
x : any/c y : any/c
> (eq? (cons 1 empty) (cons 1 empty)) false
> one (list 1)
> (eq? one one) true
procedure
(equal? x y) → boolean?
x : any/c y : any/c
> (equal? (make-posn 1 2) (make-posn (- 2 1) (+ 1 1))) true
procedure
(equal~? x y z) → boolean?
x : any/c y : any/c z : non-negative-real
> (equal~? (make-posn 1.01 1.0) (make-posn 1.01 0.99) 0.2) true
procedure
(eqv? x y) → boolean?
x : any/c y : any/c
> (eqv? (cons 1 empty) (cons 1 empty)) false
> one (list 1)
> (eqv? one one) true
procedure
(error x ...) → void?
x : any/c
> zero 0
> (if (= zero 0) (error "can't divide by 0") (/ 1 zero)) can't divide by 0
procedure
(exit) → void
procedure
(force v) → any
v : any
procedure
(gensym) → symbol?
> (gensym) 'g519531
procedure
(identity x) → any
x : any/c
> (identity 42) 42
> (identity c1) > (identity "hello") "hello"
procedure
(promise? x) → boolean?
x : any
procedure
(sleep sec) → void
sec : positive-num
procedure
(struct? x) → boolean?
x : any/c
> (struct? (make-posn 1 2)) true
> (struct? 43) false
procedure
(void) → void?
> (void)
procedure
(void? x) → boolean?
x : any
> (void? (void)) true
> (void? 42) false
5.5.10 Numbers (relaxed conditions)
procedure
(* x ...) → number
x : number
> (* 5 3) 15
> (* 5 3 2) 30
> (* 2) 2
> (*) 1
procedure
(+ x ...) → number
x : number
> (+ 2/3 1/16) 35/48
> (+ 3 2 5 8) 18
> (+ 1) 1
> (+) 0
procedure
(/ x y ...) → number
x : number y : number
> (/ 12 2) 6
> (/ 12 2 3) 2
> (/ 3) 1/3
5.5.11 Higher-Order Functions
procedure
(andmap p? l) → boolean
p? : (X -> boolean) l : (listof X)
(andmap p (list x-1 ... x-n)) = (and (p x-1) ... (p x-n))
> (andmap odd? '(1 3 5 7 9)) true
> threshold 3
> (andmap (lambda (x) (< x threshold)) '(0 1 2)) true
> (andmap even? '()) true
procedure
(apply f x-1 ... l) → Y
f : (X-1 ... X-N -> Y) x-1 : X-1 l : (list X-i+1 ... X-N)
(apply f (list x-1 ... x-n)) = (f x-1 ... x-n)
> a-list (list 0 1 2 3 4 5 6 7 8 9)
> (apply max a-list) 9
procedure
(argmax f l) → X
f : (X -> real) l : (listof X)
> (argmax second '((sam 98) (carl 78) (vincent 93) (asumu 99))) (list 'asumu 99)
procedure
(argmin f l) → X
f : (X -> real) l : (listof X)
> (argmin second '((sam 98) (carl 78) (vincent 93) (asumu 99))) (list 'carl 78)
procedure
(build-list n f) → (listof X)
n : nat f : (nat -> X)
(build-list n f) = (list (f 0) ... (f (- n 1)))
> (build-list 22 add1) (list 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22)
> i 3
> (build-list 3 (lambda (j) (+ j i))) (list 3 4 5)
> (build-list 5 (lambda (i) (build-list 5 (lambda (j) (if (= i j) 1 0)))))
(list
(list 1 0 0 0 0)
(list 0 1 0 0 0)
(list 0 0 1 0 0)
(list 0 0 0 1 0)
(list 0 0 0 0 1))
procedure
(build-string n f) → string
n : nat f : (nat -> char)
(build-string n f) = (string (f 0) ... (f (- n 1)))
> (build-string 10 integer->char) "\u0000\u0001\u0002\u0003\u0004\u0005\u0006\a\b\t"
> (build-string 26 (lambda (x) (integer->char (+ 65 x)))) "ABCDEFGHIJKLMNOPQRSTUVWXYZ"
procedure
(compose f g) → (X -> Z)
f : (Y -> Z) g : (X -> Y)
(compose f g) = (lambda (x) (f (g x)))
> ((compose add1 second) '(add 3)) 4
> (map (compose add1 second) '((add 3) (sub 2) (mul 4))) (list 4 3 5)
procedure
(filter p? l) → (listof X)
p? : (X -> boolean) l : (listof X)
> (filter odd? '(0 1 2 3 4 5 6 7 8 9)) (list 1 3 5 7 9)
> threshold 3
> (filter (lambda (x) (>= x threshold)) '(0 1 2 3 4 5 6 7 8 9)) (list 3 4 5 6 7 8 9)
procedure
(foldl f base l) → Y
f : (X Y -> Y) base : Y l : (listof X)
(foldl f base (list x-1 ... x-n)) = (f x-n ... (f x-1 base))
> (foldl + 0 '(0 1 2 3 4 5 6 7 8 9)) 45
> a-list (list 0 1 2 3 4 5 6 7 8 9)
> (foldl (lambda (x r) (if (> x threshold) (cons (* 2 x) r) r)) '() a-list) (list 18 16 14 12 10 8)
procedure
(foldr f base l) → Y
f : (X Y -> Y) base : Y l : (listof X)
(foldr f base (list x-1 ... x-n)) = (f x-1 ... (f x-n base))
> (foldr + 0 '(0 1 2 3 4 5 6 7 8 9)) 45
> a-list (list 0 1 2 3 4 5 6 7 8 9)
> (foldr (lambda (x r) (if (> x threshold) (cons (* 2 x) r) r)) '() a-list) (list 8 10 12 14 16 18)
procedure
(for-each f l ...) → void?
f : (any ... -> any) l : (listof any)
(for-each f (list x-1 ... x-n)) = (begin (f x-1) ... (f x-n))
> (for-each (lambda (x) (begin (display x) (newline))) '(1 2 3))
1
2
3
procedure
(map f l ...) → (listof Z)
f : (X ... -> Z) l : (listof X)
(map f (list x-1 ... x-n)) = (list (f x-1) ... (f x-n))
> (map add1 '(3 -4.01 2/5)) (list 4 #i-3.01 1.4)
> (map (lambda (x) (list 'my-list (+ x 1))) '(3 -4.01 2/5))
(list
(list 'my-list 4)
(list 'my-list #i-3.01)
(list 'my-list 1.4))
procedure
(memf p? l) → (union false (listof X))
p? : (X -> any) l : (listof X)
> (memf odd? '(2 4 6 3 8 0)) (list 3 8 0)
procedure
(ormap p? l) → boolean
p? : (X -> boolean) l : (listof X)
(ormap p (list x-1 ... x-n)) = (or (p x-1) ... (p x-n))
> (ormap odd? '(1 3 5 7 9)) true
> threshold 3
> (ormap (lambda (x) (< x threshold)) '(6 7 8 1 5)) true
> (ormap even? '()) false
procedure
(procedure? x) → boolean?
x : any
> (procedure? cons) true
> (procedure? add1) true
> (procedure? (lambda (x) (> x 22))) true
procedure
(quicksort l comp) → (listof X)
l : (listof X) comp : (X X -> boolean)
> (quicksort '(6 7 2 1 3 4 0 5 9 8) <) (list 0 1 2 3 4 5 6 7 8 9)
procedure
(sort l comp) → (listof X)
l : (listof X) comp : (X X -> boolean)
> (sort '(6 7 2 1 3 4 0 5 9 8) <) (list 0 1 2 3 4 5 6 7 8 9)
5.5.12 Reading and Printing
procedure
(display x) → void
x : any
> (display 10) 10
> (display "hello") hello
> (display 'hello) hello
procedure
(newline) → void
procedure
(pretty-print x) → void
x : any
> (pretty-print '((1 2 3) ((a) ("hello world" true) (((false "good bye")))))) ((1 2 3) ((a) ("hello world" true) (((false "good bye")))))
> (pretty-print (build-list 10 (lambda (i) (build-list 10 (lambda (j) (= i j))))))
((#t #f #f #f #f #f #f #f #f #f)
(#f #t #f #f #f #f #f #f #f #f)
(#f #f #t #f #f #f #f #f #f #f)
(#f #f #f #t #f #f #f #f #f #f)
(#f #f #f #f #t #f #f #f #f #f)
(#f #f #f #f #f #t #f #f #f #f)
(#f #f #f #f #f #f #t #f #f #f)
(#f #f #f #f #f #f #f #t #f #f)
(#f #f #f #f #f #f #f #f #t #f)
(#f #f #f #f #f #f #f #f #f #t))
procedure
(print x) → void
x : any
> (print 10) 10
> (print "hello") "hello"
> (print 'hello) 'hello
procedure
(printf f x ...) → void
f : string x : any
procedure
(read) → sexp
procedure
(with-input-from-file f p) → any
f : string p : (-> any)
procedure
(with-input-from-string s p) → any
s : string p : (-> any)
> (with-input-from-string "hello" read) 'hello
> (string-length (symbol->string (with-input-from-string "hello" read))) 5
procedure
(with-output-to-file f p) → any
f : string p : (-> any)
procedure
(with-output-to-string p) → any
p : (-> any)
> (with-output-to-string (lambda () (display 10))) "10"
procedure
(write x) → void
x : any
> (write 10) 10
> (write "hello") "hello"
> (write 'hello) hello
5.5.13 Vectors
procedure
(build-vector n f) → (vectorof X)
n : nat f : (nat -> X)
> (build-vector 5 add1) (vector 1 2 3 4 5)
procedure
(list->vector l) → (vectorof X)
l : (listof X)
> (list->vector (list "hello" "world" "good" "bye")) (vector "hello" "world" "good" "bye")
procedure
(make-vector n x) → (vectorof X)
n : number x : X
> (make-vector 5 0) (vector 0 0 0 0 0)
procedure
(vector x ...) → (vector X ...)
x : X
> (vector 1 2 3 -1 -2 -3) (vector 1 2 3 -1 -2 -3)
procedure
(vector->list v) → (listof X)
v : (vectorof X)
> (vector->list (vector 'a 'b 'c)) (list 'a 'b 'c)
procedure
(vector-length v) → nat
v : (vector X)
> v (vector "a" "b" "c" "d" "e")
> (vector-length v) 5
procedure
(vector-ref v n) → X
v : (vector X) n : nat
> v (vector "a" "b" "c" "d" "e")
> (vector-ref v 3) "d"
procedure
(vector-set! v n x) → void
v : (vectorof X) n : nat x : X
> v (vector "a" "b" "c" "d" "e")
> (vector-set! v 3 77)
> v (vector "a" "b" "c" 77 "e")
procedure
(vector? x) → boolean
x : any
> v (vector "a" "b" "c" 77 "e")
> (vector? v) true
> (vector? 42) false
5.5.14 Boxes
procedure
(box x) → box?
x : any/c
> (box 42) (box 42)
procedure
(box? x) → boolean?
x : any/c
> b (box 33)
> (box? b) true
> (box? 42) false
procedure
(set-box! b x) → void
b : box? x : any/c
> b (box 33)
> (set-box! b 31)
> b (box 31)
procedure
(unbox b) → any
b : box?
> b (box 31)
> (unbox b) 31
5.5.15 Hash Tables
procedure
(hash-copy h) → hash
h : hash
procedure
(hash-count h) → integer
h : hash
> ish
(make-hash
(list (cons 'r 999) (cons 'b 69) (cons 'e 61) (cons 'c 42)))
> (hash-count ish) 4
procedure
(hash-eq? h) → boolean
h : hash
> hsh
(make-hash
(list (cons 'e 61) (cons 'r 999) (cons 'c 42) (cons 'b 69)))
> (hash-eq? hsh) false
> heq
(make-hasheq
(list (cons 'b 69) (cons 'e 61) (cons 'r 999) (cons 'c 42)))
> (hash-eq? heq) true
procedure
(hash-equal? h) → boolean
h : hash?
> ish
(make-hash
(list (cons 'r 999) (cons 'b 69) (cons 'e 61) (cons 'c 42)))
> (hash-equal? ish) true
> ieq
(make-hasheq
(list (cons 'r 999) (cons 'b 69) (cons 'e 61) (cons 'c 42)))
> (hash-equal? ieq) false
procedure
(hash-eqv? h) → boolean
h : hash
> heq
(make-hasheq
(list (cons 'b 69) (cons 'e 61) (cons 'r 999) (cons 'c 42)))
> (hash-eqv? heq) false
> heqv
(make-hasheqv
(list (cons 'b 69) (cons 'e 61) (cons 'r 999) (cons 'c 42)))
> (hash-eqv? heqv) true
procedure
(hash-for-each h f) → void?
h : (hash X Y) f : (X Y -> any)
> hsh
(make-hash
(list (cons 'e 61) (cons 'r 999) (cons 'c 42) (cons 'b 69)))
> (hash-for-each hsh (lambda (ky vl) (hash-set! hsh ky (+ vl 1))))
> hsh
(make-hash
(list (cons 'e 62) (cons 'r 1000) (cons 'c 43) (cons 'b 70)))
procedure
(hash-has-key? h x) → boolean
h : (hash X Y) x : X
> ish
(make-hash
(list (cons 'r 999) (cons 'b 69) (cons 'e 61) (cons 'c 42)))
> (hash-has-key? ish 'b) true
> hsh
(make-hash
(list (cons 'e 62) (cons 'r 1000) (cons 'c 43) (cons 'b 70)))
> (hash-has-key? hsh 'd) false
procedure
(hash-map h f) → (listof Z)
h : (hash X Y) f : (X Y -> Z)
> ish
(make-hash
(list (cons 'r 999) (cons 'b 69) (cons 'e 61) (cons 'c 42)))
> (hash-map ish list) (list (list 'r 999) (list 'b 69) (list 'e 61) (list 'c 42))
procedure
(hash-ref h k) → Y
h : (hash X Y) k : X
> hsh
(make-hash
(list (cons 'e 62) (cons 'r 1000) (cons 'c 43) (cons 'b 70)))
> (hash-ref hsh 'b) 70
procedure
(hash-ref! h k v) → Y
h : (hash X Y) k : X v : Y
> hsh
(make-hash
(list (cons 'e 62) (cons 'r 1000) (cons 'c 43) (cons 'b 70)))
> (hash-ref! hsh 'd 99) 99
> hsh
(make-hash
(list
(cons 'e 62)
(cons 'r 1000)
(cons 'c 43)
(cons 'b 70)
(cons 'd 99)))
procedure
(hash-remove h k) → (hash X Y)
h : (hash X Y) k : X
> ish
(make-hash
(list (cons 'r 999) (cons 'b 69) (cons 'e 61) (cons 'c 42)))
> (hash-remove ish 'b) (make-hash (list (cons 'r 999) (cons 'e 61) (cons 'c 42)))
procedure
(hash-remove! h x) → void
h : (hash X Y) x : X
> hsh
(make-hash
(list
(cons 'e 62)
(cons 'r 1000)
(cons 'c 43)
(cons 'b 70)
(cons 'd 99)))
> (hash-remove! hsh 'r)
> hsh
(make-hash
(list (cons 'e 62) (cons 'c 43) (cons 'b 70) (cons 'd 99)))
procedure
(hash-set h k v) → (hash X Y)
h : (hash X Y) k : X v : Y
> (hash-set ish 'a 23)
(make-hash
(list
(cons 'r 999)
(cons 'b 69)
(cons 'a 23)
(cons 'e 61)
(cons 'c 42)))
procedure
(hash-set! h k v) → void?
h : (hash X Y) k : X v : Y
> hsh
(make-hash
(list (cons 'e 62) (cons 'c 43) (cons 'b 70) (cons 'd 99)))
> (hash-set! hsh 'a 23)
> hsh
(make-hash
(list
(cons 'e 62)
(cons 'a 23)
(cons 'c 43)
(cons 'b 70)
(cons 'd 99)))
procedure
(hash-update h k f) → (hash X Y)
h : (hash X Y) k : X f : (Y -> Y)
> (hash-update ish 'b (lambda (old-b) (+ old-b 1)))
(make-hash
(list (cons 'r 999) (cons 'b 70) (cons 'e 61) (cons 'c 42)))
procedure
(hash-update! h k f) → void?
h : (hash X Y) k : X f : (Y -> Y)
> hsh
(make-hash
(list
(cons 'e 62)
(cons 'a 23)
(cons 'c 43)
(cons 'b 70)
(cons 'd 99)))
> (hash-update! hsh 'b (lambda (old-b) (+ old-b 1)))
> hsh
(make-hash
(list
(cons 'e 62)
(cons 'a 23)
(cons 'c 43)
(cons 'b 71)
(cons 'd 99)))
procedure
(hash? x) → boolean
x : any
> ish
(make-hash
(list (cons 'r 999) (cons 'b 69) (cons 'e 61) (cons 'c 42)))
> (hash? ish) true
> (hash? 42) false
procedure
(make-hash) → (hash X Y)
> (make-hash) (make-hash)
> (make-hash '((b 69) (e 61) (i 999))) (make-hash (list (cons 'e 61) (cons 'b 69) (cons 'i 999)))
procedure
(make-hasheq) → (hash X Y)
> (make-hasheq) (make-hasheq)
> (make-hasheq '((b 69) (e 61) (i 999))) (make-hasheq (list (cons 'b 69) (cons 'e 61) (cons 'i 999)))
procedure
(make-hasheqv) → (hash X Y)
> (make-hasheqv) (make-hasheqv)
> (make-hasheqv '((b 69) (e 61) (i 999))) (make-hasheqv (list (cons 'b 69) (cons 'e 61) (cons 'i 999)))
procedure
(make-immutable-hash) → (hash X Y)
> (make-immutable-hash) (make-hash)
> (make-immutable-hash '((b 69) (e 61) (i 999))) (make-hash (list (cons 'b 69) (cons 'e 61) (cons 'i 999)))
procedure
(make-immutable-hasheq) → (hash X Y)
> (make-immutable-hasheq) (make-hasheq)
> (make-immutable-hasheq '((b 69) (e 61) (i 999))) (make-hasheq (list (cons 'b 69) (cons 'e 61) (cons 'i 999)))
procedure
(make-immutable-hasheqv) → (hash X Y)
> (make-immutable-hasheqv) (make-hasheqv)
> (make-immutable-hasheqv '((b 69) (e 61) (i 999))) (make-hasheqv (list (cons 'b 69) (cons 'e 61) (cons 'i 999)))