diff options
| author |  Shaz Qadeer <qadeer@microsoft.com> | 2016-01-19 15:07:06 -0800 |
|---|---|---|
| committer | Shaz Qadeer <qadeer@microsoft.com> | 2016-01-19 15:07:06 -0800 |
| commit | c36b3d93a9c55dcb1d37d8b6ca09ae0b5114ec0b (patch) | |
| tree | 0efdb93280d0a637d18294ad2416cce03d56bd09 | |
| parent | f75e5ba707885666ead81d7c5ec1653e7a09f3ff (diff) | |
some fixes
| -rw-r--r-- | Test/civl/treiber-stack.bpl | 59 |
1 files changed, 34 insertions, 25 deletions
diff --git a/Test/civl/treiber-stack.bpl b/Test/civl/treiber-stack.bpl index 751ce861..bb0201a9 100644 --- a/Test/civl/treiber-stack.bpl +++ b/Test/civl/treiber-stack.bpl @@ -1,62 +1,71 @@ // RUN: %boogie -noinfer -typeEncoding:m -useArrayTheory "%s" > "%t" // RUN: %diff "%s.expect" "%t" -type Node = int; -const unique null: Node; + +const unique null: int; type lmap; -function {:linear "Node"} dom(lmap): [Node]bool; -function map(lmap): [Node]Node; -function {:builtin "MapConst"} MapConstBool(bool) : [Node]bool; +function {:linear "Node"} dom(lmap): [int]bool; +function map(lmap): [int]int; +function {:builtin "MapConst"} MapConstBool(bool) : [int]bool; function EmptyLmap(): (lmap); axiom (dom(EmptyLmap()) == MapConstBool(false)); -function Add(x: lmap, i: Node, v: Node): (lmap); -axiom (forall x: lmap, i: Node, v: Node :: dom(Add(x, i, v)) == dom(x)[i:=true] && map(Add(x, i, v)) == map(x)[i := v]); +function Add(x: lmap, i: int, v: int): (lmap); +axiom (forall x: lmap, i: int, v: int :: dom(Add(x, i, v)) == dom(x)[i:=true] && map(Add(x, i, v)) == map(x)[i := v]); -function Remove(x: lmap, i: Node): (lmap); -axiom (forall x: lmap, i: Node :: dom(Remove(x, i)) == dom(x)[i:=false] && map(Remove(x, i)) == map(x)); +function Remove(x: lmap, i: int): (lmap); +axiom (forall x: lmap, i: int :: dom(Remove(x, i)) == dom(x)[i:=false] && map(Remove(x, i)) == map(x)); -procedure {:yields} {:layer 0,1} ReadTopOfStack() returns (v:Node); -ensures {:right} |{ A: assume dom(Stack)[v] || dom(Used)[v]; return true; }|; +procedure {:yields} {:layer 0,1} ReadTopOfStack() returns (v:int); +ensures {:right} |{ A: assume dom(Stack)[v] || Used[v]; return true; }|; -procedure {:yields} {:layer 0,1} Load(i:Node) returns (v:Node); -ensures {:right} |{ A: assert dom(Stack)[i] || dom(Used)[i]; goto B,C; +procedure {:yields} {:layer 0,1} Load(i:int) returns (v:int); +ensures {:right} |{ A: assert dom(Stack)[i] || Used[i]; goto B,C; B: assume dom(Stack)[i]; v := map(Stack)[i]; return true; C: assume !dom(Stack)[i]; return true; }|; -procedure {:yields} {:layer 0,1} Store({:linear_in "Node"} l_in:lmap, i:Node, v:Node) returns ({:linear "Node"} l_out:lmap); +procedure {:yields} {:layer 0,1} Store({:linear_in "Node"} l_in:lmap, i:int, v:int) returns ({:linear "Node"} l_out:lmap); ensures {:both} |{ A: assert dom(l_in)[i]; l_out := Add(l_in, i, v); return true; }|; -procedure {:yields} {:layer 0,1} TransferToStack(oldVal: Node, newVal: Node, {:linear_in "Node"} l_in:lmap) returns (r: bool, {:linear "Node"} l_out:lmap); +procedure {:yields} {:layer 0,1} TransferToStack(oldVal: int, newVal: int, {:linear_in "Node"} l_in:lmap) returns (r: bool, {:linear "Node"} l_out:lmap); ensures {:atomic} |{ A: assert dom(l_in)[newVal]; goto B,C; B: assume oldVal == TopOfStack; TopOfStack := newVal; l_out := EmptyLmap(); Stack := Add(Stack, newVal, map(l_in)[newVal]); r := true; return true; C: assume oldVal != TopOfStack; l_out := l_in; r := false; return true; }|; -procedure {:yields} {:layer 0,1} TransferFromStack(oldVal: Node, newVal: Node) returns (r: bool); +procedure {:yields} {:layer 0,1} TransferFromStack(oldVal: int, newVal: int) returns (r: bool); ensures {:atomic} |{ A: goto B,C; - B: assume oldVal == TopOfStack; TopOfStack := newVal; Used := Add(Used, oldVal, map(Stack)[oldVal]); Stack := Remove(Stack, oldVal); r := true; return true; + B: assume oldVal == TopOfStack; TopOfStack := newVal; Used[oldVal] := true; Stack := Remove(Stack, oldVal); r := true; return true; C: assume oldVal != TopOfStack; r := false; return true; }|; -var {:layer 0} TopOfStack: Node; +var {:layer 0} TopOfStack: int; var {:linear "Node"} {:layer 0} Stack: lmap; -function {:inline} Inv(TopOfStack: Node, Stack: lmap) : (bool) +function {:inline} Inv(TopOfStack: int, Stack: lmap) : (bool) { BetweenSet(map(Stack), TopOfStack, null)[TopOfStack] && Subset(BetweenSet(map(Stack), TopOfStack, null), Union(Singleton(null), dom(Stack))) } -var {:linear "Node"} {:layer 0} Used: lmap; +var {:linear "Node"} {:layer 0} Used: [int]bool; + +function {:inline} {:linear "Node"} NodeCollector(x: int) : [int]bool +{ + MapConstBool(false)[x := true] +} +function {:inline} {:linear "Node"} NodeSetCollector(x: [int]bool) : [int]bool +{ + x +} -procedure {:yields} {:layer 1} push(x: Node, {:linear_in "Node"} x_lmap: lmap) +procedure {:yields} {:layer 1} push(x: int, {:linear_in "Node"} x_lmap: lmap) requires {:layer 1} dom(x_lmap)[x]; requires {:layer 1} Inv(TopOfStack, Stack); ensures {:layer 1} Inv(TopOfStack, Stack); ensures {:atomic} |{ A: Stack := Add(Stack, x, TopOfStack); TopOfStack := x; return true; }|; { - var t: Node; + var t: int; var g: bool; var {:linear "Node"} t_lmap: lmap; @@ -82,13 +91,13 @@ ensures {:atomic} |{ A: Stack := Add(Stack, x, TopOfStack); TopOfStack := x; ret assert {:expand} {:layer 1} Inv(TopOfStack, Stack); } -procedure {:yields} {:layer 1} pop() returns (t: Node) +procedure {:yields} {:layer 1} pop() returns (t: int) requires {:layer 1} Inv(TopOfStack, Stack); ensures {:layer 1} Inv(TopOfStack, Stack); -ensures {:atomic} |{ A: assume TopOfStack != null; t := TopOfStack; Used := Add(Used, t, map(Stack)[t]); TopOfStack := map(Stack)[t]; Stack := Remove(Stack, t); return true; }|; +ensures {:atomic} |{ A: assume TopOfStack != null; t := TopOfStack; Used[t] := true; TopOfStack := map(Stack)[t]; Stack := Remove(Stack, t); return true; }|; { var g: bool; - var x: Node; + var x: int; yield; assert {:layer 1} Inv(TopOfStack, Stack); |