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;;; begin Stalin
(define (fuck-up) (panic "This shouldn't happen"))
;;; end Stalin
;;; begin Scheme->C
(define (fuck-up) (error 'error "This shouldn't happen"))
;;; end Scheme->C
;;; begin Gambit-C
(define (fuck-up) (error "This shouldn't happen"))
;;; end Gambit-C
;;; begin Bigloo
(define (fuck-up) (error "This shouldn't happen" 'error 'error))
;;; end Bigloo
;;; begin Chicken
(define (fuck-up) (error "This shouldn't happen"))
;;; end Chicken
(define (matrix-rows a) (vector-length a))
(define (matrix-columns a) (vector-length (vector-ref a 0)))
(define (matrix-ref a i j) (vector-ref (vector-ref a i) j))
(define (matrix-set! a i j x) (vector-set! (vector-ref a i) j x))
(define (simplex a m1 m2 m3)
(define *epsilon* 1e-6)
(if (not (and (>= m1 0)
(>= m2 0)
(>= m3 0)
(= (matrix-rows a) (+ m1 m2 m3 2))))
(fuck-up))
(let* ((m12 (+ m1 m2 1))
(m (- (matrix-rows a) 2))
(n (- (matrix-columns a) 1))
(l1 (make-vector n))
(l2 (make-vector m))
(l3 (make-vector m2))
(nl1 n)
(iposv (make-vector m))
(izrov (make-vector n))
(ip 0)
(kp 0)
(bmax 0.0)
(one? #f)
(pass2? #t))
(define (simp1 mm abs?)
(set! kp (vector-ref l1 0))
(set! bmax (matrix-ref a mm kp))
(do ((k 1 (+ k 1))) ((>= k nl1))
(if (positive?
(if abs?
(- (abs (matrix-ref a mm (vector-ref l1 k))) (abs bmax))
(- (matrix-ref a mm (vector-ref l1 k)) bmax)))
(begin (set! kp (vector-ref l1 k))
(set! bmax (matrix-ref a mm (vector-ref l1 k)))))))
(define (simp2)
(set! ip 0)
(let ((q1 0.0)
(flag? #f))
(do ((i 0 (+ i 1))) ((= i m))
(if flag?
(if (< (matrix-ref a (vector-ref l2 i) kp) (- *epsilon*))
(let ((q (/ (- (matrix-ref a (vector-ref l2 i) 0))
(matrix-ref a (vector-ref l2 i) kp))))
(cond
((< q q1) (set! ip (vector-ref l2 i)) (set! q1 q))
((= q q1)
(let ((qp 0.0)
(q0 0.0))
(let loop ((k 1))
(if (<= k n)
(begin
(set! qp
(/ (- (matrix-ref a ip k)) (matrix-ref a ip kp)))
(set! q0 (/ (- (matrix-ref a (vector-ref l2 i) k))
(matrix-ref a (vector-ref l2 i) kp)))
(if (= q0 qp) (loop (+ k 1))))))
(if (< q0 qp) (set! ip (vector-ref l2 i))))))))
(if (< (matrix-ref a (vector-ref l2 i) kp) (- *epsilon*))
(begin (set! q1 (/ (- (matrix-ref a (vector-ref l2 i) 0))
(matrix-ref a (vector-ref l2 i) kp)))
(set! ip (vector-ref l2 i))
(set! flag? #t)))))))
(define (simp3 one?)
(let ((piv (/ (matrix-ref a ip kp))))
(do ((ii 0 (+ ii 1))) ((= ii (+ m (if one? 2 1))))
(if (not (= ii ip))
(begin (matrix-set! a ii kp (* piv (matrix-ref a ii kp)))
(do ((kk 0 (+ kk 1))) ((= kk (+ n 1)))
(if (not (= kk kp))
(matrix-set! a ii kk (- (matrix-ref a ii kk)
(* (matrix-ref a ip kk)
(matrix-ref a ii kp)))))))))
(do ((kk 0 (+ kk 1))) ((= kk (+ n 1)))
(if (not (= kk kp))
(matrix-set! a ip kk (* (- piv) (matrix-ref a ip kk)))))
(matrix-set! a ip kp piv)))
(do ((k 0 (+ k 1))) ((= k n))
(vector-set! l1 k (+ k 1))
(vector-set! izrov k k))
(do ((i 0 (+ i 1))) ((= i m))
(if (negative? (matrix-ref a (+ i 1) 0)) (fuck-up))
(vector-set! l2 i (+ i 1))
(vector-set! iposv i (+ n i)))
(do ((i 0 (+ i 1))) ((= i m2)) (vector-set! l3 i #t))
(if (positive? (+ m2 m3))
(begin
(do ((k 0 (+ k 1))) ((= k (+ n 1)))
(do ((i (+ m1 1) (+ i 1)) (sum 0.0 (+ sum (matrix-ref a i k))))
((> i m) (matrix-set! a (+ m 1) k (- sum)))))
(let loop ()
(simp1 (+ m 1) #f)
(cond
((<= bmax *epsilon*)
(cond
((< (matrix-ref a (+ m 1) 0) (- *epsilon*)) (set! pass2? #f))
((<= (matrix-ref a (+ m 1) 0) *epsilon*)
(let loop ((ip1 m12))
(if (<= ip1 m)
(cond ((= (vector-ref iposv (- ip1 1)) (+ ip n -1))
(simp1 ip1 #t)
(cond ((positive? bmax) (set! ip ip1) (set! one? #t))
(else (loop (+ ip1 1)))))
(else (loop (+ ip1 1))))
(do ((i (+ m1 1) (+ i 1))) ((>= i m12))
(if (vector-ref l3 (- i m1 1))
(do ((k 0 (+ k 1))) ((= k (+ n 1)))
(matrix-set! a i k (- (matrix-ref a i k)))))))))
(else (simp2) (if (zero? ip) (set! pass2? #f) (set! one? #t)))))
(else (simp2) (if (zero? ip) (set! pass2? #f) (set! one? #t))))
(if one?
(begin
(set! one? #f)
(simp3 #t)
(cond
((>= (vector-ref iposv (- ip 1)) (+ n m12 -1))
(let loop ((k 0))
(cond
((and (< k nl1) (not (= kp (vector-ref l1 k))))
(loop (+ k 1)))
(else
(set! nl1 (- nl1 1))
(do ((is k (+ is 1))) ((>= is nl1))
(vector-set! l1 is (vector-ref l1 (+ is 1))))
(matrix-set! a (+ m 1) kp (+ (matrix-ref a (+ m 1) kp) 1))
(do ((i 0 (+ i 1))) ((= i (+ m 2)))
(matrix-set! a i kp (- (matrix-ref a i kp))))))))
((and (>= (vector-ref iposv (- ip 1)) (+ n m1))
(vector-ref l3 (- (vector-ref iposv (- ip 1)) m1 n)))
(vector-set! l3 (- (vector-ref iposv (- ip 1)) m1 n) #f)
(matrix-set! a (+ m 1) kp (+ (matrix-ref a (+ m 1) kp) 1))
(do ((i 0 (+ i 1))) ((= i (+ m 2)))
(matrix-set! a i kp (- (matrix-ref a i kp))))))
(let ((t (vector-ref izrov (- kp 1))))
(vector-set! izrov (- kp 1) (vector-ref iposv (- ip 1)))
(vector-set! iposv (- ip 1) t))
(loop))))))
(and pass2?
(let loop ()
(simp1 0 #f)
(cond
((positive? bmax)
(simp2)
(cond ((zero? ip) #t)
(else (simp3 #f)
(let ((t (vector-ref izrov (- kp 1))))
(vector-set! izrov (- kp 1) (vector-ref iposv (- ip 1)))
(vector-set! iposv (- ip 1) t))
(loop))))
(else (list iposv izrov)))))))
(define (test)
(simplex (vector (vector 0.0 1.0 1.0 3.0 -0.5)
(vector 740.0 -1.0 0.0 -2.0 0.0)
(vector 0.0 0.0 -2.0 0.0 7.0)
(vector 0.5 0.0 -1.0 1.0 -2.0)
(vector 9.0 -1.0 -1.0 -1.0 -1.0)
(vector 0.0 0.0 0.0 0.0 0.0))
2 1 1)
#f)
(do ((i 0 (+ i 1))) ((= i 100000)) (test))
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