ivy/test/creport3.ivy

181 строка
5.3 KiB
Plaintext
Исходник Постоянная ссылка Обычный вид История

2018-11-23 22:35:19 +03:00
#lang ivy1.7
include order
include collections
module shift_theory(idx) = {
relation r(T : idx, X : idx, Y : idx)
action f(t:idx,x:idx) returns (y:idx)
specification {
property r(T,X,Y) & r(T,X,Y1) -> Y = Y1
property r(T,X,Y) & r(T,X1,Y) -> X = X1
property r(T,X1,Y1) & r(T,X2,Y2) & X1 < X2 -> Y1 < Y2
property r(T1,X,Y1) & r(T2,X,Y2) & T1 < T2 -> Y2 < Y1
property r(T,X1,Y1) & idx.succ(X1,X2) & idx.succ(Y1,Y2) -> r(T,X2,Y2)
property r(0,X,X)
property r(X,X,0)
property r(T,X,Y) -> Y <= X & T <= X
around f {
require t <= x;
...
ensure r(t,x,y)
}
} # end specification section
implementation {
definition r(T,X,Y) = (X = Y + T)
implement f {
y := x - t
}
}
isolate iso = this with idx.impl
}
module mysegment(domain,range,none) = {
type this
relation value(S:this,D:domain,R:range)
relation begin(S:this,D:domain)
relation end(S:this,D:domain)
action set(w:this, i:domain, v:range) returns (w:this)
action read(w:this, i:domain) returns (v:range)
action trim(w:this, i:domain) returns (w:this)
action empty(i:domain) returns (w:this)
action merge(w: this, max_w: this) returns (max_w: this)
action getBegin(w:this) returns (i:domain)
action getEnd(w:this) returns (i:domain)
specification {
after init {
}
around set {
require v ~= none;
require exists I. begin(w, I) & I <= i;
...
ensure value(w, I, V) <-> (I = i & V = v) | (I ~= i & value(old w, I, V))
}
around read {
require exists I. begin(w, I) & I <= i;
...
ensure value(w, i, v);
}
around trim {
require exists I. begin(w, I) & I <= i;
...
ensure begin(w, I) <-> I = i;
ensure value(w, I, V) <-> (i <= I & value(old w, I, V)) | (I < i & V = none);
}
# after empty {
# ensure value(w, I, V, O) <-> V = none;
# ensure begin(w, I) <-> I = i;
# }
# around getBegin {
# ...
# ensure begin(w, i);
# }
# around getEnd {
# ...
# ensure forall I. i <= I -> value(w, I, none);
# }
property value(W, I, V1) & value(W, I, V2) -> V1 = V2
property value(W, I, V) -> 0 <= I
property begin(W, I) & begin(W, I2) -> I = I2
# property end(W, IE) & I >= IE -> value(W, I, none)
}
implementation {
instance shift : shift_theory(slot)
instance arr : array(domain,range)
destructor elems(W:this) : arr
destructor offset(W:this) : domain
isolate value_abstraction = {
property X < offset(W) -> value(W,X,none)
property shift.r(offset(W),X,Y) & Y < elems(W).end -> value(W,X,elems(W).value(Y))
property shift.r(offset(W),X,Y) & Y >= elems(W).end -> value(W,X,none)
property value(W, I, V1) & value(W, I, V2) -> V1 = V2
property value(W, I, V) -> 0 <= I
theorem [into] {
property 0 <= I -> exists V. rev(W,I,V)
}
implementation {
definition value(W,X,V) =
(exists Y. shift.r(offset(W),X,Y) &
(V = elems(W).value(Y) if Y < elems(W).end else none))
| X < offset(W) & V = none
}
} with shift, arr, domain
definition begin(W,I) = (I = offset(W))
definition end(W,I) = shift.r(offset(W),I,elems(W).end)
implement set {
var index := shift.f(offset(w), i);
if w.elems.end <= i {
w.elems := w.elems.resize(index.next, none);
};
w.elems := w.elems.set(index, v);
}
# implement set {
# var new_end := (i.next) if (i >= elems(w).end) else (elems(w).end);
# w.elems := w.elems.resize(new_end,none);
# w.elems := w.elems.set(i-w.offset,v)
# }
implement read {
var index := shift.f(offset(w),i);
v := none if (index >= w.elems.end) else w.elems.value(index)
}
# implement trim {
# var j := i;
# if j <= bound(w) {
# while j < bound(w)
# invariant i <= j
# invariant j <= bound(w)
# invariant shift.r(offset(w),bound(w),content(w).end)
# invariant j <= X & X < bound(w) & shift.r(offset(w),X,Y) -> value(old w, X, maxview(content(w).value(Y)), maxop(content(w).value(Y)))
# invariant i <= X & X < j & shift.r(i,X,Y) -> value(old w, X, maxview(content(w).value(Y)), maxop(content(w).value(Y)) )
# invariant bound(w) = bound(old w)
# invariant offset(w) = offset(old w)
# invariant content(w).end = content(old w).end
# {
# content(w) := content(w).set(shift.f(i,j),content(w).value(shift.f(offset(w),j)));
# j := j.next;
# };
# content(w) := content(w).resize(shift.f(i,bound(w)),0);
# offset(w) := i
# } else {
# content(w) := arr.empty;
# offset(w) := i;
# bound(w) := i;
# }
# }
}
isolate iso = this with domain
}
instance slot : unbounded_sequence
type data
individual none : data
instance foo : mysegment(slot,data,none)
export foo.set
export foo.read