diff options
Diffstat (limited to 'lib/profile.ml')
-rw-r--r-- | lib/profile.ml | 30 |
1 files changed, 15 insertions, 15 deletions
diff --git a/lib/profile.ml b/lib/profile.ml index 2472d75d..39e08721 100644 --- a/lib/profile.ml +++ b/lib/profile.ml @@ -260,7 +260,7 @@ let time_overhead_B_C () = let _dw = dummy_spent_alloc () in let _dt = get_time () in () - with _ -> assert false + with e when e <> Sys.Break -> assert false done; let after = get_time () in let beforeloop = get_time () in @@ -390,7 +390,7 @@ let profile1 e f a = (match !stack with [] -> assert false | _::s -> stack := s); last_alloc := get_alloc (); r - with exn -> + with reraise -> let dw = spent_alloc () in let dt = get_time () - t in e.tottime <- e.tottime + dt; e.owntime <- e.owntime + dt; @@ -403,7 +403,7 @@ let profile1 e f a = if not (p==e) then (match !stack with [] -> assert false | _::s -> stack := s); last_alloc := get_alloc (); - raise exn + raise reraise let profile2 e f a b = let dw = spent_alloc () in @@ -432,7 +432,7 @@ let profile2 e f a b = (match !stack with [] -> assert false | _::s -> stack := s); last_alloc := get_alloc (); r - with exn -> + with reraise -> let dw = spent_alloc () in let dt = get_time () - t in e.tottime <- e.tottime + dt; e.owntime <- e.owntime + dt; @@ -445,7 +445,7 @@ let profile2 e f a b = if not (p==e) then (match !stack with [] -> assert false | _::s -> stack := s); last_alloc := get_alloc (); - raise exn + raise reraise let profile3 e f a b c = let dw = spent_alloc () in @@ -474,7 +474,7 @@ let profile3 e f a b c = (match !stack with [] -> assert false | _::s -> stack := s); last_alloc := get_alloc (); r - with exn -> + with reraise -> let dw = spent_alloc () in let dt = get_time () - t in e.tottime <- e.tottime + dt; e.owntime <- e.owntime + dt; @@ -487,7 +487,7 @@ let profile3 e f a b c = if not (p==e) then (match !stack with [] -> assert false | _::s -> stack := s); last_alloc := get_alloc (); - raise exn + raise reraise let profile4 e f a b c d = let dw = spent_alloc () in @@ -516,7 +516,7 @@ let profile4 e f a b c d = (match !stack with [] -> assert false | _::s -> stack := s); last_alloc := get_alloc (); r - with exn -> + with reraise -> let dw = spent_alloc () in let dt = get_time () - t in e.tottime <- e.tottime + dt; e.owntime <- e.owntime + dt; @@ -529,7 +529,7 @@ let profile4 e f a b c d = if not (p==e) then (match !stack with [] -> assert false | _::s -> stack := s); last_alloc := get_alloc (); - raise exn + raise reraise let profile5 e f a b c d g = let dw = spent_alloc () in @@ -558,7 +558,7 @@ let profile5 e f a b c d g = (match !stack with [] -> assert false | _::s -> stack := s); last_alloc := get_alloc (); r - with exn -> + with reraise -> let dw = spent_alloc () in let dt = get_time () - t in e.tottime <- e.tottime + dt; e.owntime <- e.owntime + dt; @@ -571,7 +571,7 @@ let profile5 e f a b c d g = if not (p==e) then (match !stack with [] -> assert false | _::s -> stack := s); last_alloc := get_alloc (); - raise exn + raise reraise let profile6 e f a b c d g h = let dw = spent_alloc () in @@ -600,7 +600,7 @@ let profile6 e f a b c d g h = (match !stack with [] -> assert false | _::s -> stack := s); last_alloc := get_alloc (); r - with exn -> + with reraise -> let dw = spent_alloc () in let dt = get_time () - t in e.tottime <- e.tottime + dt; e.owntime <- e.owntime + dt; @@ -613,7 +613,7 @@ let profile6 e f a b c d g h = if not (p==e) then (match !stack with [] -> assert false | _::s -> stack := s); last_alloc := get_alloc (); - raise exn + raise reraise let profile7 e f a b c d g h i = let dw = spent_alloc () in @@ -642,7 +642,7 @@ let profile7 e f a b c d g h i = (match !stack with [] -> assert false | _::s -> stack := s); last_alloc := get_alloc (); r - with exn -> + with reraise -> let dw = spent_alloc () in let dt = get_time () - t in e.tottime <- e.tottime + dt; e.owntime <- e.owntime + dt; @@ -655,7 +655,7 @@ let profile7 e f a b c d g h i = if not (p==e) then (match !stack with [] -> assert false | _::s -> stack := s); last_alloc := get_alloc (); - raise exn + raise reraise (* Some utilities to compute the logical and physical sizes and depth of ML objects *) |