#lang racket/base ;; Functions that sample from functions, and functions that create memoized samplers. (require racket/match racket/flonum racket/math racket/contract racket/list "math.rkt" "axis-transform.rkt" "parameters.rkt" "contract.rkt") (provide (all-defined-out)) (struct mapped-function (f fmap) #:transparent #:property prop:procedure (λ (g x) ((mapped-function-f g) x))) (struct mapped-function/bounds mapped-function (x-min x-max) #:transparent) (define (make-mapped-function fmap) (mapped-function (λ (x) (first (fmap (list x)))) fmap)) (define (make-mapped-function/bounds fmap x-min x-max) (mapped-function/bounds (λ (x) (first (fmap (list x)))) fmap x-min x-max)) (define (map* f xs) (match f #;; gives obviously wrong chaperone error (tries to apply a hash?): [(mapped-function _ fmap) (fmap xs)] [(? mapped-function?) ((mapped-function-fmap f) xs)] [_ (map f xs)])) (define (nonlinear-seq x-min x-max samples transform #:start? [start? #t] #:end? [end? #t]) (match-define (invertible-function _ finv) (transform x-min x-max)) (map finv (linear-seq x-min x-max samples #:start? start? #:end? end?))) (define ((2d-polar->3d-function f) x y z) (let ([x (exact->inexact x)] [y (exact->inexact y)] [z (exact->inexact z)]) (define-values (θ ρ) (cond [(and (fl= x 0.0) (fl= y 0.0)) (values 0.0 0.0)] [else (values (flmodulo (atan y x) 2pi) (atan (fl/ z (fldist2 x y))))])) (define r (exact->inexact (f θ ρ))) (fl- r (fldist3 x y z)))) (define (sample-parametric f t-min t-max samples) (map* f (linear-seq t-min t-max samples))) (define (sample-polar f θ-min θ-max samples) (define θs (linear-seq θ-min θ-max samples)) (define rs (map* f θs)) (map polar->cartesian θs rs)) (define (sample-2d-polar f θ-min θ-max θ-samples ρ-min ρ-max ρ-samples) (for*/list ([θ (in-list (linear-seq θ-min θ-max θ-samples))] [ρ (in-list (linear-seq ρ-min ρ-max ρ-samples))]) (3d-polar->3d-cartesian θ ρ (f θ ρ)))) (define ((make-function->sampler transform-thnk) f) (define memo (make-hash)) (λ (x-min x-max x-samples) (define tx (transform-thnk)) (hash-ref! memo (vector x-min x-max x-samples tx) (λ () (define xs (nonlinear-seq x-min x-max x-samples tx)) (list xs (map* f xs)))))) (define ((make-2d-function->sampler transform-x-thnk transform-y-thnk) f) (define memo (make-hash)) (λ (x-min x-max x-samples y-min y-max y-samples) (define tx (transform-x-thnk)) (define ty (transform-y-thnk)) (hash-ref! memo (vector x-min x-max x-samples tx y-min y-max y-samples ty) (λ () (define xs (nonlinear-seq x-min x-max x-samples tx)) (define ys (nonlinear-seq y-min y-max y-samples ty)) (list xs ys (for/vector #:length y-samples ([y (in-list ys)]) (for/vector #:length x-samples ([x (in-list xs)]) (f x y)))))))) (define ((make-3d-function->sampler transform-x-thnk transform-y-thnk transform-z-thnk) f) (define memo (make-hash)) (λ (x-min x-max x-samples y-min y-max y-samples z-min z-max z-samples) (define tx (transform-x-thnk)) (define ty (transform-y-thnk)) (define tz (transform-z-thnk)) (hash-ref! memo (vector x-min x-max x-samples tx y-min y-max y-samples ty z-min z-max z-samples tz) (λ () (define xs (nonlinear-seq x-min x-max x-samples tx)) (define ys (nonlinear-seq y-min y-max y-samples ty)) (define zs (nonlinear-seq z-min z-max z-samples tz)) (list xs ys zs (for/vector #:length z-samples ([z (in-list zs)]) (for/vector #:length y-samples ([y (in-list ys)]) (for/vector #:length x-samples ([x (in-list xs)]) (f x y z))))))))) (define (2d-sample->list zss) (for*/list ([zs (in-vector zss)] [z (in-vector zs)]) z)) (define (3d-sample->list dsss) (for*/list ([dss (in-vector dsss)] [ds (in-vector dss)] [d (in-vector ds)]) d))