diff options
Diffstat (limited to 'lib/dialyzer/test/opaque_SUITE_data/src')
16 files changed, 3237 insertions, 4 deletions
diff --git a/lib/dialyzer/test/opaque_SUITE_data/src/ets/ets_use.erl b/lib/dialyzer/test/opaque_SUITE_data/src/ets/ets_use.erl index d65af0af4e..4eb202f16a 100644 --- a/lib/dialyzer/test/opaque_SUITE_data/src/ets/ets_use.erl +++ b/lib/dialyzer/test/opaque_SUITE_data/src/ets/ets_use.erl @@ -1,5 +1,5 @@ -module(ets_use). --export([t1/0, t2/0]). +-export([t1/0, t2/0, t3/0, t4/0]). t1() -> case n() of @@ -13,4 +13,10 @@ t2() -> T when is_atom(T) -> atm end. -n() -> ets:new(n, [named_table]). +t3() -> + is_atom(n()). % no warning since atom() is possible + +t4() -> + is_integer(n()). % opaque warning since tid() is opaque + +n() -> ets:new(n, [named_table]). % -> atom() | tid() diff --git a/lib/dialyzer/test/opaque_SUITE_data/src/inf_loop2.erl b/lib/dialyzer/test/opaque_SUITE_data/src/inf_loop2.erl new file mode 100644 index 0000000000..659ccaf015 --- /dev/null +++ b/lib/dialyzer/test/opaque_SUITE_data/src/inf_loop2.erl @@ -0,0 +1,175 @@ +%% -*- erlang-indent-level: 2 -*- +%%---------------------------------------------------------------------------- +%% Copy of inf_loop1.erl, where the calls mentioned below have been +%% restored. + +%% Non-sensical (i.e., stripped-down) program that sends the analysis +%% into an infinite loop. The #we.es field was originally a gb_tree() +%% but the programmer declared it as an array in order to change it to +%% that data type instead. In the file, there are two calls to function +%% gb_trees:get/2 which seem to be the ones responsible for sending the +%% analysis into an infinite loop. Currently, these calls are marked and +%% have been changed to gbee_trees:get/2 in order to be able to see that +%% the analysis works if these two calls are taken out of the picture. +%%---------------------------------------------------------------------------- +-module(inf_loop2). + +-export([command/1]). + +-record(we, {id, + es = array:new() :: array(), + vp, + mirror = none}). +-record(edge, {vs,ve,a = none,b = none,lf,rf,ltpr,ltsu,rtpr,rtsu}). + +command(St) -> + State = drag_mode(offset_region), + SetupSt = wings_sel_conv:more(St), + Tvs = wings_sel:fold(fun(Faces, #we{id = Id} = We, Acc) -> + FaceRegions = wings_sel:face_regions(Faces, We), + {AllVs0,VsData} = + collect_offset_regions_data(FaceRegions, We, [], []), + AllVs = ordsets:from_list(AllVs0), + [{Id,{AllVs,offset_regions_fun(VsData, State)}}|Acc] + end, + [], + SetupSt), + wings_drag:setup(Tvs, 42, [], St). + +drag_mode(Type) -> + {Mode,Norm} = wings_pref:get_value(Type, {average,loop}), + {Type,Mode,Norm}. + +collect_offset_regions_data([Faces|Regions], We, AllVs, VsData) -> + {FaceNormTab,OuterEdges,RegVs} = + some_fake_module:faces_data_0(Faces, We, [], [], []), + {LoopNorm,LoopVsData,LoopVs} = + offset_regions_loop_data(OuterEdges, Faces, We, FaceNormTab), + Vs = RegVs -- LoopVs, + RegVsData = vertex_normals(Vs, FaceNormTab, We, LoopVsData), + collect_offset_regions_data(Regions, We, RegVs ++ AllVs, + [{LoopNorm,RegVsData}|VsData]); +collect_offset_regions_data([], _, AllVs, VsData) -> + {AllVs,VsData}. + +offset_regions_loop_data(Edges, Faces, We, FNtab) -> + EdgeSet = gb_sets:from_list(Edges), + offset_loop_data_0(EdgeSet, Faces, We, FNtab, [], [], []). + +offset_loop_data_0(EdgeSet0, Faces, We, FNtab, LNorms, VData0, Vs0) -> + case gb_sets:is_empty(EdgeSet0) of + false -> + {Edge,EdgeSet1} = gb_sets:take_smallest(EdgeSet0), + {EdgeSet,VData,Links,LoopNorm,Vs} = + offset_loop_data_1(Edge, EdgeSet1, Faces, We, FNtab, VData0, Vs0), + offset_loop_data_0(EdgeSet, Faces, We, FNtab, + [{Links,LoopNorm}|LNorms], VData, Vs); + true -> + AvgLoopNorm = average_loop_norm(LNorms), + {AvgLoopNorm,VData0,Vs0} + end. + +offset_loop_data_1(Edge, EdgeSet, _Faces, + #we{es = Etab, vp = Vtab} = We, FNtab, VData, Vs) -> + #edge{vs = Va, ve = Vb, lf = Lf, ltsu = NextLeft} = gb_trees:get(Edge, Etab), + VposA = gb_trees:get(Va, Vtab), + VposB = gb_trees:get(Vb, Vtab), + VDir = e3d_vec:sub(VposB, VposA), + FNorm = wings_face:normal(Lf, We), + EdgeData = gb_trees:get(NextLeft, Etab), + offset_loop_data_2(NextLeft, EdgeData, Va, VposA, Lf, Edge, We, FNtab, + EdgeSet, VDir, [], [FNorm], VData, [], Vs, 0). + +offset_loop_data_2(CurE, #edge{vs = Va, ve = Vb, lf = PrevFace, + rtsu = NextEdge, ltsu = IfCurIsMember}, + Vb, VposB, PrevFace, LastE, + #we{mirror = M} = We, + FNtab, EdgeSet0, VDir, EDir0, VNorms0, VData0, VPs0, Vs0, + Links) -> + Mirror = M == PrevFace, + offset_loop_is_member(Mirror, Vb, Va, VposB, CurE, IfCurIsMember, VNorms0, + NextEdge, EdgeSet0, VDir, EDir0, FNtab, PrevFace, + LastE, We, VData0, VPs0, Vs0, Links). + +offset_loop_is_member(Mirror, V1, V2, Vpos1, CurE, NextE, VNorms0, NEdge, + EdgeSet0, VDir, EDir0, FNtab, PFace, LastE, We, + VData0, VPs0, Vs0, Links) -> + #we{es = Etab, vp = Vtab} = We, + Vpos2 = gb_trees:get(V2, Vtab), + Dir = e3d_vec:sub(Vpos2, Vpos1), + NextVDir = e3d_vec:neg(Dir), + EdgeSet = gb_sets:delete(CurE, EdgeSet0), + EdgeData = gb_trees:get(NextE, Etab), %% HERE + [FNorm|_] = VNorms0, + VData = offset_loop_data_3(Mirror, V1, Vpos1, VNorms0, NEdge, VDir, + Dir, EDir0, FNtab, We, VData0), + VPs = [Vpos1|VPs0], + Vs = [V1|Vs0], + offset_loop_data_2(NextE, EdgeData, V2, Vpos2, PFace, LastE, We, FNtab, + EdgeSet, NextVDir, [], [FNorm], VData, VPs, Vs, Links + 1). + +offset_loop_data_3(false, V, Vpos, VNorms0, NextEdge, + VDir, Dir, EDir0, FNtab, We, VData0) -> + #we{es = Etab} = We, + VNorm = e3d_vec:norm(e3d_vec:add(VNorms0)), + NV = wings_vertex:other(V, gb_trees:get(NextEdge, Etab)), %% HERE + ANorm = vertex_normal(NV, FNtab, We), + EDir = some_fake_module:average_edge_dir(VNorm, VDir, Dir, EDir0), + AvgDir = some_fake_module:evaluate_vdata(VDir, Dir, VNorm), + ScaledDir = some_fake_module:along_edge_scale_factor(VDir, Dir, EDir, ANorm), + [{V,{Vpos,AvgDir,EDir,ScaledDir}}|VData0]. + +average_loop_norm([{_,LNorms}]) -> + e3d_vec:norm(LNorms); +average_loop_norm([{LinksA,LNormA},{LinksB,LNormB}]) -> + case LinksA < LinksB of + true -> + e3d_vec:norm(e3d_vec:add(e3d_vec:neg(LNormA), LNormB)); + false -> + e3d_vec:norm(e3d_vec:add(e3d_vec:neg(LNormB), LNormA)) + end; +average_loop_norm(LNorms) -> + LoopNorms = [Norm || {_,Norm} <- LNorms], + e3d_vec:norm(e3d_vec:neg(e3d_vec:add(LoopNorms))). + +vertex_normals([V|Vs], FaceNormTab, #we{vp = Vtab, mirror = M} = We, Acc) -> + FaceNorms = + wings_vertex:fold(fun(_, Face, _, A) when Face == M -> + [e3d_vec:neg(wings_face:normal(M, We))|A]; + (_, Face, _, A) -> + [gb_trees:get(Face, FaceNormTab)|A] + end, [], V, We), + VNorm = e3d_vec:norm(e3d_vec:add(FaceNorms)), + Vpos = gb_trees:get(V, Vtab), + vertex_normals(Vs, FaceNormTab, We, [{V,{Vpos,VNorm}}|Acc]); +vertex_normals([], _, _, Acc) -> + Acc. + +vertex_normal(V, FaceNormTab, #we{mirror = M} = We) -> + wings_vertex:fold(fun(_, Face, _, A) when Face == M -> + [e3d_vec:neg(wings_face:normal(Face, We))|A]; + (_, Face, _, A) -> + N = gb_trees:get(Face, FaceNormTab), + case e3d_vec:is_zero(N) of + true -> A; + false -> [N|A] + end + end, [], V, We). + +offset_regions_fun(OffsetData, {_,Solution,_} = State) -> + fun(new_mode_data, {NewState,_}) -> + offset_regions_fun(OffsetData, NewState); + ([Dist,_,_,Bump|_], A) -> + lists:foldl(fun({LoopNormal,VsData}, VsAcc0) -> + lists:foldl(fun({V,{Vpos0,VNorm}}, VsAcc) -> + [{V,Vpos0}|VsAcc]; + ({V,{Vpos0,Dir,EDir,ScaledEDir}}, VsAcc) -> + Vec = case Solution of + average -> Dir; + along_edges -> EDir; + scaled -> ScaledEDir + end, + [{V,Vpos0}|VsAcc] + end, VsAcc0, VsData) + end, A, OffsetData) + end. diff --git a/lib/dialyzer/test/opaque_SUITE_data/src/modules/opaque_digraph.erl b/lib/dialyzer/test/opaque_SUITE_data/src/modules/opaque_digraph.erl new file mode 100644 index 0000000000..09d4229e28 --- /dev/null +++ b/lib/dialyzer/test/opaque_SUITE_data/src/modules/opaque_digraph.erl @@ -0,0 +1,655 @@ +%% +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 1996-2014. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + + +%%% The Erlang scanner. All types are opaque, which puts some stress +%%% on Dialyzer. + +-module(opaque_digraph). + +-export([new/0, new/1, delete/1, info/1]). + +-export([add_vertex/1, add_vertex/2, add_vertex/3]). +-export([del_vertex/2, del_vertices/2]). +-export([vertex/2, no_vertices/1, vertices/1]). +-export([source_vertices/1, sink_vertices/1]). + +-export([add_edge/3, add_edge/4, add_edge/5]). +-export([del_edge/2, del_edges/2, del_path/3]). +-export([edge/2, no_edges/1, edges/1]). + +-export([out_neighbours/2, in_neighbours/2]). +-export([out_edges/2, in_edges/2, edges/2]). +-export([out_degree/2, in_degree/2]). +-export([get_path/3, get_cycle/2]). + +-export([get_short_path/3, get_short_cycle/2]). + +-export_type([local_digraph/0, d_type/0, vertex/0]). + +-record(digraph, {vtab = notable :: ets:tab(), + etab = notable :: ets:tab(), + ntab = notable :: ets:tab(), + cyclic = true :: boolean()}). + +-opaque local_digraph() :: #digraph{}. + +-export_type([edge/0, label/0, add_edge_err_rsn/0, + d_protection/0, d_cyclicity/0]). + +-opaque edge() :: term(). +-opaque label() :: term(). +-opaque vertex() :: term(). + +-opaque add_edge_err_rsn() :: {'bad_edge', Path :: [vertex()]} + | {'bad_vertex', V :: vertex()}. + +%% +%% Type is a list of +%% protected | private +%% acyclic | cyclic +%% +%% default is [cyclic,protected] +%% +-opaque d_protection() :: 'private' | 'protected'. +-opaque d_cyclicity() :: 'acyclic' | 'cyclic'. +-opaque d_type() :: d_cyclicity() | d_protection(). + +-spec new() -> local_digraph(). + +new() -> new([]). + +-spec new(Type) -> local_digraph() when + Type :: [d_type()]. + +new(Type) -> + case check_type(Type, protected, []) of + {Access, Ts} -> + V = ets:new(vertices, [set, Access]), + E = ets:new(edges, [set, Access]), + N = ets:new(neighbours, [bag, Access]), + ets:insert(N, [{'$vid', 0}, {'$eid', 0}]), + set_type(Ts, #digraph{vtab=V, etab=E, ntab=N}); + error -> + erlang:error(badarg) + end. + +%% +%% Check type of graph +%% +%-spec check_type([d_type()], d_protection(), [{'cyclic', boolean()}]) -> +% {d_protection(), [{'cyclic', boolean()}]}. + +check_type([acyclic|Ts], A, L) -> + check_type(Ts, A,[{cyclic,false} | L]); +check_type([cyclic | Ts], A, L) -> + check_type(Ts, A, [{cyclic,true} | L]); +check_type([protected | Ts], _, L) -> + check_type(Ts, protected, L); +check_type([private | Ts], _, L) -> + check_type(Ts, private, L); +check_type([], A, L) -> {A, L}; +check_type(_, _, _) -> error. + +%% +%% Set graph type +%% +-spec set_type([{'cyclic', boolean()}], local_digraph()) -> local_digraph(). + +set_type([{cyclic,V} | Ks], G) -> + set_type(Ks, G#digraph{cyclic = V}); +set_type([], G) -> G. + + +%% Data access functions + +-spec delete(G) -> 'true' when + G :: local_digraph(). + +delete(G) -> + ets:delete(G#digraph.vtab), + ets:delete(G#digraph.etab), + ets:delete(G#digraph.ntab). + +-spec info(G) -> InfoList when + G :: local_digraph(), + InfoList :: [{'cyclicity', Cyclicity :: d_cyclicity()} | + {'memory', NoWords :: non_neg_integer()} | + {'protection', Protection :: d_protection()}]. + +info(G) -> + VT = G#digraph.vtab, + ET = G#digraph.etab, + NT = G#digraph.ntab, + Cyclicity = case G#digraph.cyclic of + true -> cyclic; + false -> acyclic + end, + Protection = ets:info(VT, protection), + Memory = ets:info(VT, memory) + ets:info(ET, memory) + ets:info(NT, memory), + [{cyclicity, Cyclicity}, {memory, Memory}, {protection, Protection}]. + +-spec add_vertex(G) -> vertex() when + G :: local_digraph(). + +add_vertex(G) -> + do_add_vertex({new_vertex_id(G), []}, G). + +-spec add_vertex(G, V) -> vertex() when + G :: local_digraph(), + V :: vertex(). + +add_vertex(G, V) -> + do_add_vertex({V, []}, G). + +-spec add_vertex(G, V, Label) -> vertex() when + G :: local_digraph(), + V :: vertex(), + Label :: label(). + +add_vertex(G, V, D) -> + do_add_vertex({V, D}, G). + +-spec del_vertex(G, V) -> 'true' when + G :: local_digraph(), + V :: vertex(). + +del_vertex(G, V) -> + do_del_vertex(V, G). + +-spec del_vertices(G, Vertices) -> 'true' when + G :: local_digraph(), + Vertices :: [vertex()]. + +del_vertices(G, Vs) -> + do_del_vertices(Vs, G). + +-spec vertex(G, V) -> {V, Label} | 'false' when + G :: local_digraph(), + V :: vertex(), + Label :: label(). + +vertex(G, V) -> + case ets:lookup(G#digraph.vtab, V) of + [] -> false; + [Vertex] -> Vertex + end. + +-spec no_vertices(G) -> non_neg_integer() when + G :: local_digraph(). + +no_vertices(G) -> + ets:info(G#digraph.vtab, size). + +-spec vertices(G) -> Vertices when + G :: local_digraph(), + Vertices :: [vertex()]. + +vertices(G) -> + ets:select(G#digraph.vtab, [{{'$1', '_'}, [], ['$1']}]). + +-spec source_vertices(local_digraph()) -> [vertex()]. + +source_vertices(G) -> + collect_vertices(G, in). + +-spec sink_vertices(local_digraph()) -> [vertex()]. + +sink_vertices(G) -> + collect_vertices(G, out). + +-spec in_degree(G, V) -> non_neg_integer() when + G :: local_digraph(), + V :: vertex(). + +in_degree(G, V) -> + length(ets:lookup(G#digraph.ntab, {in, V})). + +-spec in_neighbours(G, V) -> Vertex when + G :: local_digraph(), + V :: vertex(), + Vertex :: [vertex()]. + +in_neighbours(G, V) -> + ET = G#digraph.etab, + NT = G#digraph.ntab, + collect_elems(ets:lookup(NT, {in, V}), ET, 2). + +-spec in_edges(G, V) -> Edges when + G :: local_digraph(), + V :: vertex(), + Edges :: [edge()]. + +in_edges(G, V) -> + ets:select(G#digraph.ntab, [{{{in, V}, '$1'}, [], ['$1']}]). + +-spec out_degree(G, V) -> non_neg_integer() when + G :: local_digraph(), + V :: vertex(). + +out_degree(G, V) -> + length(ets:lookup(G#digraph.ntab, {out, V})). + +-spec out_neighbours(G, V) -> Vertices when + G :: local_digraph(), + V :: vertex(), + Vertices :: [vertex()]. + +out_neighbours(G, V) -> + ET = G#digraph.etab, + NT = G#digraph.ntab, + collect_elems(ets:lookup(NT, {out, V}), ET, 3). + +-spec out_edges(G, V) -> Edges when + G :: local_digraph(), + V :: vertex(), + Edges :: [edge()]. + +out_edges(G, V) -> + ets:select(G#digraph.ntab, [{{{out, V}, '$1'}, [], ['$1']}]). + +-spec add_edge(G, V1, V2) -> edge() | {'error', add_edge_err_rsn()} when + G :: local_digraph(), + V1 :: vertex(), + V2 :: vertex(). + +add_edge(G, V1, V2) -> + do_add_edge({new_edge_id(G), V1, V2, []}, G). + +-spec add_edge(G, V1, V2, Label) -> edge() | {'error', add_edge_err_rsn()} when + G :: local_digraph(), + V1 :: vertex(), + V2 :: vertex(), + Label :: label(). + +add_edge(G, V1, V2, D) -> + do_add_edge({new_edge_id(G), V1, V2, D}, G). + +-spec add_edge(G, E, V1, V2, Label) -> edge() | {'error', add_edge_err_rsn()} when + G :: local_digraph(), + E :: edge(), + V1 :: vertex(), + V2 :: vertex(), + Label :: label(). + +add_edge(G, E, V1, V2, D) -> + do_add_edge({E, V1, V2, D}, G). + +-spec del_edge(G, E) -> 'true' when + G :: local_digraph(), + E :: edge(). + +del_edge(G, E) -> + do_del_edges([E], G). + +-spec del_edges(G, Edges) -> 'true' when + G :: local_digraph(), + Edges :: [edge()]. + +del_edges(G, Es) -> + do_del_edges(Es, G). + +-spec no_edges(G) -> non_neg_integer() when + G :: local_digraph(). + +no_edges(G) -> + ets:info(G#digraph.etab, size). + +-spec edges(G) -> Edges when + G :: local_digraph(), + Edges :: [edge()]. + +edges(G) -> + ets:select(G#digraph.etab, [{{'$1', '_', '_', '_'}, [], ['$1']}]). + +-spec edges(G, V) -> Edges when + G :: local_digraph(), + V :: vertex(), + Edges :: [edge()]. + +edges(G, V) -> + ets:select(G#digraph.ntab, [{{{out, V},'$1'}, [], ['$1']}, + {{{in, V}, '$1'}, [], ['$1']}]). + +-spec edge(G, E) -> {E, V1, V2, Label} | 'false' when + G :: local_digraph(), + E :: edge(), + V1 :: vertex(), + V2 :: vertex(), + Label :: label(). + +edge(G, E) -> + case ets:lookup(G#digraph.etab,E) of + [] -> false; + [Edge] -> Edge + end. + +%% +%% Generate a "unique" edge identifier (relative to this graph) +%% +-spec new_edge_id(local_digraph()) -> edge(). + +new_edge_id(G) -> + NT = G#digraph.ntab, + [{'$eid', K}] = ets:lookup(NT, '$eid'), + true = ets:delete(NT, '$eid'), + true = ets:insert(NT, {'$eid', K+1}), + ['$e' | K]. + +%% +%% Generate a "unique" vertex identifier (relative to this graph) +%% +-spec new_vertex_id(local_digraph()) -> vertex(). + +new_vertex_id(G) -> + NT = G#digraph.ntab, + [{'$vid', K}] = ets:lookup(NT, '$vid'), + true = ets:delete(NT, '$vid'), + true = ets:insert(NT, {'$vid', K+1}), + ['$v' | K]. + +%% +%% Collect elements for a index in a tuple +%% +collect_elems(Keys, Table, Index) -> + collect_elems(Keys, Table, Index, []). + +collect_elems([{_,Key}|Keys], Table, Index, Acc) -> + collect_elems(Keys, Table, Index, + [ets:lookup_element(Table, Key, Index)|Acc]); +collect_elems([], _, _, Acc) -> Acc. + +-spec do_add_vertex({vertex(), label()}, local_digraph()) -> vertex(). + +do_add_vertex({V, _Label} = VL, G) -> + ets:insert(G#digraph.vtab, VL), + V. + +%% +%% Collect either source or sink vertices. +%% +collect_vertices(G, Type) -> + Vs = vertices(G), + lists:foldl(fun(V, A) -> + case ets:member(G#digraph.ntab, {Type, V}) of + true -> A; + false -> [V|A] + end + end, [], Vs). + +%% +%% Delete vertices +%% +do_del_vertices([V | Vs], G) -> + do_del_vertex(V, G), + do_del_vertices(Vs, G); +do_del_vertices([], #digraph{}) -> true. + +do_del_vertex(V, G) -> + do_del_nedges(ets:lookup(G#digraph.ntab, {in, V}), G), + do_del_nedges(ets:lookup(G#digraph.ntab, {out, V}), G), + ets:delete(G#digraph.vtab, V). + +do_del_nedges([{_, E}|Ns], G) -> + case ets:lookup(G#digraph.etab, E) of + [{E, V1, V2, _}] -> + do_del_edge(E, V1, V2, G), + do_del_nedges(Ns, G); + [] -> % cannot happen + do_del_nedges(Ns, G) + end; +do_del_nedges([], #digraph{}) -> true. + +%% +%% Delete edges +%% +do_del_edges([E|Es], G) -> + case ets:lookup(G#digraph.etab, E) of + [{E,V1,V2,_}] -> + do_del_edge(E,V1,V2,G), + do_del_edges(Es, G); + [] -> + do_del_edges(Es, G) + end; +do_del_edges([], #digraph{}) -> true. + +do_del_edge(E, V1, V2, G) -> + ets:select_delete(G#digraph.ntab, [{{{in, V2}, E}, [], [true]}, + {{{out,V1}, E}, [], [true]}]), + ets:delete(G#digraph.etab, E). + +-spec rm_edges([vertex(),...], local_digraph()) -> 'true'. + +rm_edges([V1, V2|Vs], G) -> + rm_edge(V1, V2, G), + rm_edges([V2|Vs], G); +rm_edges(_, _) -> true. + +-spec rm_edge(vertex(), vertex(), local_digraph()) -> 'ok'. + +rm_edge(V1, V2, G) -> + Es = out_edges(G, V1), + rm_edge_0(Es, V1, V2, G). + +rm_edge_0([E|Es], V1, V2, G) -> + case ets:lookup(G#digraph.etab, E) of + [{E, V1, V2, _}] -> + do_del_edge(E, V1, V2, G), + rm_edge_0(Es, V1, V2, G); + _ -> + rm_edge_0(Es, V1, V2, G) + end; +rm_edge_0([], _, _, #digraph{}) -> ok. + +%% +%% Check that endpoints exist +%% +-spec do_add_edge({edge(), vertex(), vertex(), label()}, local_digraph()) -> + edge() | {'error', add_edge_err_rsn()}. + +do_add_edge({E, V1, V2, Label}, G) -> + case ets:member(G#digraph.vtab, V1) of + false -> {error, {bad_vertex, V1}}; + true -> + case ets:member(G#digraph.vtab, V2) of + false -> {error, {bad_vertex, V2}}; + true -> + case other_edge_exists(G, E, V1, V2) of + true -> {error, {bad_edge, [V1, V2]}}; + false when G#digraph.cyclic =:= false -> + acyclic_add_edge(E, V1, V2, Label, G); + false -> + do_insert_edge(E, V1, V2, Label, G) + end + end + end. + +other_edge_exists(#digraph{etab = ET}, E, V1, V2) -> + case ets:lookup(ET, E) of + [{E, Vert1, Vert2, _}] when Vert1 =/= V1; Vert2 =/= V2 -> + true; + _ -> + false + end. + +-spec do_insert_edge(edge(), vertex(), vertex(), label(), local_digraph()) -> edge(). + +do_insert_edge(E, V1, V2, Label, #digraph{ntab=NT, etab=ET}) -> + ets:insert(NT, [{{out, V1}, E}, {{in, V2}, E}]), + ets:insert(ET, {E, V1, V2, Label}), + E. + +-spec acyclic_add_edge(edge(), vertex(), vertex(), label(), local_digraph()) -> + edge() | {'error', {'bad_edge', [vertex()]}}. + +acyclic_add_edge(_E, V1, V2, _L, _G) when V1 =:= V2 -> + {error, {bad_edge, [V1, V2]}}; +acyclic_add_edge(E, V1, V2, Label, G) -> + case get_path(G, V2, V1) of + false -> do_insert_edge(E, V1, V2, Label, G); + Path -> {error, {bad_edge, Path}} + end. + +%% +%% Delete all paths from vertex V1 to vertex V2 +%% + +-spec del_path(G, V1, V2) -> 'true' when + G :: local_digraph(), + V1 :: vertex(), + V2 :: vertex(). + +del_path(G, V1, V2) -> + case get_path(G, V1, V2) of + false -> true; + Path -> + rm_edges(Path, G), + del_path(G, V1, V2) + end. + +%% +%% Find a cycle through V +%% return the cycle as list of vertices [V ... V] +%% if no cycle exists false is returned +%% if only a cycle of length one exists it will be +%% returned as [V] but only after longer cycles have +%% been searched. +%% + +-spec get_cycle(G, V) -> Vertices | 'false' when + G :: local_digraph(), + V :: vertex(), + Vertices :: [vertex(),...]. + +get_cycle(G, V) -> + case one_path(out_neighbours(G, V), V, [], [V], [V], 2, G, 1) of + false -> + case lists:member(V, out_neighbours(G, V)) of + true -> [V]; + false -> false + end; + Vs -> Vs + end. + +%% +%% Find a path from V1 to V2 +%% return the path as list of vertices [V1 ... V2] +%% if no path exists false is returned +%% + +-spec get_path(G, V1, V2) -> Vertices | 'false' when + G :: local_digraph(), + V1 :: vertex(), + V2 :: vertex(), + Vertices :: [vertex(),...]. + +get_path(G, V1, V2) -> + one_path(out_neighbours(G, V1), V2, [], [V1], [V1], 1, G, 1). + +%% +%% prune_short_path (evaluate conditions on path) +%% short : if path is too short +%% ok : if path is ok +%% +prune_short_path(Counter, Min) when Counter < Min -> + short; +prune_short_path(_Counter, _Min) -> + ok. + +one_path([W|Ws], W, Cont, Xs, Ps, Prune, G, Counter) -> + case prune_short_path(Counter, Prune) of + short -> one_path(Ws, W, Cont, Xs, Ps, Prune, G, Counter); + ok -> lists:reverse([W|Ps]) + end; +one_path([V|Vs], W, Cont, Xs, Ps, Prune, G, Counter) -> + case lists:member(V, Xs) of + true -> one_path(Vs, W, Cont, Xs, Ps, Prune, G, Counter); + false -> one_path(out_neighbours(G, V), W, + [{Vs,Ps} | Cont], [V|Xs], [V|Ps], + Prune, G, Counter+1) + end; +one_path([], W, [{Vs,Ps}|Cont], Xs, _, Prune, G, Counter) -> + one_path(Vs, W, Cont, Xs, Ps, Prune, G, Counter-1); +one_path([], _, [], _, _, _, _, _Counter) -> false. + +%% +%% Like get_cycle/2, but a cycle of length one is preferred. +%% + +-spec get_short_cycle(G, V) -> Vertices | 'false' when + G :: local_digraph(), + V :: vertex(), + Vertices :: [vertex(),...]. + +get_short_cycle(G, V) -> + get_short_path(G, V, V). + +%% +%% Like get_path/3, but using a breadth-first search makes it possible +%% to find a short path. +%% + +-spec get_short_path(G, V1, V2) -> Vertices | 'false' when + G :: local_digraph(), + V1 :: vertex(), + V2 :: vertex(), + Vertices :: [vertex(),...]. + +get_short_path(G, V1, V2) -> + T = new(), + add_vertex(T, V1), + Q = queue:new(), + Q1 = queue_out_neighbours(V1, G, Q), + L = spath(Q1, G, V2, T), + delete(T), + L. + +spath(Q, G, Sink, T) -> + case queue:out(Q) of + {{value, E}, Q1} -> + {_E, V1, V2, _Label} = edge(G, E), + if + Sink =:= V2 -> + follow_path(V1, T, [V2]); + true -> + case vertex(T, V2) of + false -> + add_vertex(T, V2), + add_edge(T, V2, V1), + NQ = queue_out_neighbours(V2, G, Q1), + spath(NQ, G, Sink, T); + _V -> + spath(Q1, G, Sink, T) + end + end; + {empty, _Q1} -> + false + end. + +follow_path(V, T, P) -> + P1 = [V | P], + case out_neighbours(T, V) of + [N] -> + follow_path(N, T, P1); + [] -> + P1 + end. + +queue_out_neighbours(V, G, Q0) -> + lists:foldl(fun(E, Q) -> queue:in(E, Q) end, Q0, out_edges(G, V)). diff --git a/lib/dialyzer/test/opaque_SUITE_data/src/modules/opaque_erl_scan.erl b/lib/dialyzer/test/opaque_SUITE_data/src/modules/opaque_erl_scan.erl new file mode 100644 index 0000000000..9ecd4f92a1 --- /dev/null +++ b/lib/dialyzer/test/opaque_SUITE_data/src/modules/opaque_erl_scan.erl @@ -0,0 +1,1300 @@ +%% -*- coding: utf-8 -*- +%% +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 1996-2014. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + + +%%% The Erlang scanner. All types are opaque, which puts some stress +%%% on Dialyzer. + +-module(opaque_erl_scan). + +%%% External exports + +-export([string/1,string/2,string/3,tokens/3,tokens/4, + format_error/1,reserved_word/1, + token_info/1,token_info/2, + attributes_info/1,attributes_info/2,set_attribute/3]). + +%%% Private +-export([continuation_location/1]). + +-export_type([error_info/0, + line/0, + location/0, + options/0, + return_cont/0, + token/0, + tokens_result/0]). + +%%% +%%% Defines and type definitions +%%% + +-define(COLUMN(C), (is_integer(C) andalso C >= 1)). +%% Line numbers less than zero have always been allowed: +-define(ALINE(L), is_integer(L)). +-define(STRING(S), is_list(S)). +-define(RESWORDFUN(F), is_function(F, 1)). +-define(SETATTRFUN(F), is_function(F, 1)). + +-export_type([category/0, column/0, resword_fun/0, option/0, symbol/0, + info_line/0, attributes_data/0, attributes/0, tokens/0, + error_description/0, char_spec/0, cont_fun/0, + attribute_item/0, info_location/0, attribute_info/0, + token_item/0, token_info/0]). + +-opaque category() :: atom(). +-opaque column() :: pos_integer(). +-opaque line() :: integer(). +-opaque location() :: line() | {line(),column()}. +-opaque resword_fun() :: fun((atom()) -> boolean()). +-opaque option() :: 'return' | 'return_white_spaces' | 'return_comments' + | 'text' | {'reserved_word_fun', resword_fun()}. +-opaque options() :: option() | [option()]. +-opaque symbol() :: atom() | float() | integer() | string(). +-opaque info_line() :: integer() | term(). +-opaque attributes_data() + :: [{'column', column()} | {'line', info_line()} | {'text', string()}] + | {line(), column()}. +%% The fact that {line(),column()} is a possible attributes() type +%% is hidden. +-opaque attributes() :: line() | attributes_data(). +-opaque token() :: {category(), attributes(), symbol()} + | {category(), attributes()}. +-opaque tokens() :: [token()]. +-opaque error_description() :: term(). +-opaque error_info() :: {location(), module(), error_description()}. + +%%% Local record. +-record(erl_scan, + {resword_fun = fun reserved_word/1 :: resword_fun(), + ws = false :: boolean(), + comment = false :: boolean(), + text = false :: boolean()}). + +%%---------------------------------------------------------------------------- + +-spec format_error(ErrorDescriptor) -> string() when + ErrorDescriptor :: error_description(). +format_error({string,Quote,Head}) -> + lists:flatten(["unterminated " ++ string_thing(Quote) ++ + " starting with " ++ + io_lib:write_string(Head, Quote)]); +format_error({illegal,Type}) -> + lists:flatten(io_lib:fwrite("illegal ~w", [Type])); +format_error(char) -> "unterminated character"; +format_error({base,Base}) -> + lists:flatten(io_lib:fwrite("illegal base '~w'", [Base])); +format_error(Other) -> + lists:flatten(io_lib:write(Other)). + +-spec string(String) -> Return when + String :: string(), + Return :: {'ok', Tokens :: tokens(), EndLocation} + | {'error', ErrorInfo :: error_info(), ErrorLocation}, + EndLocation :: location(), + ErrorLocation :: location(). +string(String) -> + string(String, 1, []). + +-spec string(String, StartLocation) -> Return when + String :: string(), + Return :: {'ok', Tokens :: tokens(), EndLocation} + | {'error', ErrorInfo :: error_info(), ErrorLocation}, + StartLocation :: location(), + EndLocation :: location(), + ErrorLocation :: location(). +string(String, StartLocation) -> + string(String, StartLocation, []). + +-spec string(String, StartLocation, Options) -> Return when + String :: string(), + Options :: options(), + Return :: {'ok', Tokens :: tokens(), EndLocation} + | {'error', ErrorInfo :: error_info(), ErrorLocation}, + StartLocation :: location(), + EndLocation :: location(), + ErrorLocation :: location(). +string(String, Line, Options) when ?STRING(String), ?ALINE(Line) -> + string1(String, options(Options), Line, no_col, []); +string(String, {Line,Column}, Options) when ?STRING(String), + ?ALINE(Line), + ?COLUMN(Column) -> + string1(String, options(Options), Line, Column, []). + +-opaque char_spec() :: string() | 'eof'. +-opaque cont_fun() :: fun((char_spec(), #erl_scan{}, line(), column(), + tokens(), any()) -> any()). +-opaque return_cont() :: {erl_scan_continuation, + string(), column(), tokens(), line(), + #erl_scan{}, any(), cont_fun()}. +-opaque tokens_result() :: {'ok', Tokens :: tokens(), EndLocation :: location()} + | {'eof', EndLocation :: location()} + | {'error', ErrorInfo :: error_info(), + EndLocation :: location()}. + +-spec tokens(Continuation, CharSpec, StartLocation) -> Return when + Continuation :: return_cont() | [], + CharSpec :: char_spec(), + StartLocation :: location(), + Return :: {'done',Result :: tokens_result(),LeftOverChars :: char_spec()} + | {'more', Continuation1 :: return_cont()}. +tokens(Cont, CharSpec, StartLocation) -> + tokens(Cont, CharSpec, StartLocation, []). + +-spec tokens(Continuation, CharSpec, StartLocation, Options) -> Return when + Continuation :: return_cont() | [], + CharSpec :: char_spec(), + StartLocation :: location(), + Options :: options(), + Return :: {'done',Result :: tokens_result(),LeftOverChars :: char_spec()} + | {'more', Continuation1 :: return_cont()}. +tokens([], CharSpec, Line, Options) when ?ALINE(Line) -> + tokens1(CharSpec, options(Options), Line, no_col, [], fun scan/6, []); +tokens([], CharSpec, {Line,Column}, Options) when ?ALINE(Line), + ?COLUMN(Column) -> + tokens1(CharSpec, options(Options), Line, Column, [], fun scan/6, []); +tokens({erl_scan_continuation,Cs,Col,Toks,Line,St,Any,Fun}, + CharSpec, _Loc, _Opts) -> + tokens1(Cs++CharSpec, St, Line, Col, Toks, Fun, Any). + +continuation_location({erl_scan_continuation,_,no_col,_,Line,_,_,_}) -> + Line; +continuation_location({erl_scan_continuation,_,Col,_,Line,_,_,_}) -> + {Line,Col}. + +-opaque attribute_item() :: 'column' | 'length' | 'line' + | 'location' | 'text'. +-opaque info_location() :: location() | term(). +-opaque attribute_info() :: {'column', column()}| {'length', pos_integer()} + | {'line', info_line()} + | {'location', info_location()} + | {'text', string()}. +-opaque token_item() :: 'category' | 'symbol' | attribute_item(). +-opaque token_info() :: {'category', category()} | {'symbol', symbol()} + | attribute_info(). + +-spec token_info(Token) -> TokenInfo when + Token :: token(), + TokenInfo :: [TokenInfoTuple :: token_info()]. +token_info(Token) -> + Items = [category,column,length,line,symbol,text], % undefined order + token_info(Token, Items). + +-spec token_info(Token, TokenItem) -> TokenInfoTuple | 'undefined' when + Token :: token(), + TokenItem :: token_item(), + TokenInfoTuple :: token_info(); + (Token, TokenItems) -> TokenInfo when + Token :: token(), + TokenItems :: [TokenItem :: token_item()], + TokenInfo :: [TokenInfoTuple :: token_info()]. +token_info(_Token, []) -> + []; +token_info(Token, [Item|Items]) when is_atom(Item) -> + case token_info(Token, Item) of + undefined -> + token_info(Token, Items); + TokenInfo when is_tuple(TokenInfo) -> + [TokenInfo|token_info(Token, Items)] + end; +token_info({Category,_Attrs}, category=Item) -> + {Item,Category}; +token_info({Category,_Attrs,_Symbol}, category=Item) -> + {Item,Category}; +token_info({Category,_Attrs}, symbol=Item) -> + {Item,Category}; +token_info({_Category,_Attrs,Symbol}, symbol=Item) -> + {Item,Symbol}; +token_info({_Category,Attrs}, Item) -> + attributes_info(Attrs, Item); +token_info({_Category,Attrs,_Symbol}, Item) -> + attributes_info(Attrs, Item). + +-spec attributes_info(Attributes) -> AttributesInfo when + Attributes :: attributes(), + AttributesInfo :: [AttributeInfoTuple :: attribute_info()]. +attributes_info(Attributes) -> + Items = [column,length,line,text], % undefined order + attributes_info(Attributes, Items). + +-spec attributes_info + (Attributes, AttributeItem) -> AttributeInfoTuple | 'undefined' when + Attributes :: attributes(), + AttributeItem :: attribute_item(), + AttributeInfoTuple :: attribute_info(); + (Attributes, AttributeItems) -> AttributeInfo when + Attributes :: attributes(), + AttributeItems :: [AttributeItem :: attribute_item()], + AttributeInfo :: [AttributeInfoTuple :: attribute_info()]. +attributes_info(_Attrs, []) -> + []; +attributes_info(Attrs, [A|As]) when is_atom(A) -> + case attributes_info(Attrs, A) of + undefined -> + attributes_info(Attrs, As); + AttributeInfo when is_tuple(AttributeInfo) -> + [AttributeInfo|attributes_info(Attrs, As)] + end; +attributes_info({Line,Column}, column=Item) when ?ALINE(Line), + ?COLUMN(Column) -> + {Item,Column}; +attributes_info(Line, column) when ?ALINE(Line) -> + undefined; +attributes_info(Attrs, column=Item) -> + attr_info(Attrs, Item); +attributes_info(Attrs, length=Item) -> + case attributes_info(Attrs, text) of + undefined -> + undefined; + {text,Text} -> + {Item,length(Text)} + end; +attributes_info(Line, line=Item) when ?ALINE(Line) -> + {Item,Line}; +attributes_info({Line,Column}, line=Item) when ?ALINE(Line), + ?COLUMN(Column) -> + {Item,Line}; +attributes_info(Attrs, line=Item) -> + attr_info(Attrs, Item); +attributes_info({Line,Column}=Location, location=Item) when ?ALINE(Line), + ?COLUMN(Column) -> + {Item,Location}; +attributes_info(Line, location=Item) when ?ALINE(Line) -> + {Item,Line}; +attributes_info(Attrs, location=Item) -> + {line,Line} = attributes_info(Attrs, line), % assume line is present + case attributes_info(Attrs, column) of + undefined -> + %% If set_attribute() has assigned a term such as {17,42} + %% to 'line', then Line will look like {Line,Column}. One + %% should not use 'location' but 'line' and 'column' in + %% such special cases. + {Item,Line}; + {column,Column} -> + {Item,{Line,Column}} + end; +attributes_info({Line,Column}, text) when ?ALINE(Line), ?COLUMN(Column) -> + undefined; +attributes_info(Line, text) when ?ALINE(Line) -> + undefined; +attributes_info(Attrs, text=Item) -> + attr_info(Attrs, Item); +attributes_info(T1, T2) -> + erlang:error(badarg, [T1,T2]). + +-spec set_attribute(AttributeItem, Attributes, SetAttributeFun) -> Attributes when + AttributeItem :: 'line', + Attributes :: attributes(), + SetAttributeFun :: fun((info_line()) -> info_line()). +set_attribute(Tag, Attributes, Fun) when ?SETATTRFUN(Fun) -> + set_attr(Tag, Attributes, Fun). + +%%% +%%% Local functions +%%% + +string_thing($') -> "atom"; %' Stupid Emacs +string_thing(_) -> "string". + +-define(WHITE_SPACE(C), + is_integer(C) andalso + (C >= $\000 andalso C =< $\s orelse C >= $\200 andalso C =< $\240)). +-define(DIGIT(C), C >= $0, C =< $9). +-define(CHAR(C), is_integer(C), C >= 0). +-define(UNICODE(C), + is_integer(C) andalso + (C >= 0 andalso C < 16#D800 orelse + C > 16#DFFF andalso C < 16#FFFE orelse + C > 16#FFFF andalso C =< 16#10FFFF)). + +-define(UNI255(C), C >= 0, C =< 16#ff). + +options(Opts0) when is_list(Opts0) -> + Opts = lists:foldr(fun expand_opt/2, [], Opts0), + [RW_fun] = + case opts(Opts, [reserved_word_fun], []) of + badarg -> + erlang:error(badarg, [Opts0]); + R -> + R + end, + Comment = proplists:get_bool(return_comments, Opts), + WS = proplists:get_bool(return_white_spaces, Opts), + Txt = proplists:get_bool(text, Opts), + #erl_scan{resword_fun = RW_fun, + comment = Comment, + ws = WS, + text = Txt}; +options(Opt) -> + options([Opt]). + +opts(Options, [Key|Keys], L) -> + V = case lists:keyfind(Key, 1, Options) of + {reserved_word_fun,F} when ?RESWORDFUN(F) -> + {ok,F}; + {Key,_} -> + badarg; + false -> + {ok,default_option(Key)} + end, + case V of + badarg -> + badarg; + {ok,Value} -> + opts(Options, Keys, [Value|L]) + end; +opts(_Options, [], L) -> + lists:reverse(L). + +default_option(reserved_word_fun) -> + fun reserved_word/1. + +expand_opt(return, Os) -> + [return_comments,return_white_spaces|Os]; +expand_opt(O, Os) -> + [O|Os]. + +attr_info(Attrs, Item) -> + try lists:keyfind(Item, 1, Attrs) of + {_Item, _Value} = T -> + T; + false -> + undefined + catch + _:_ -> + erlang:error(badarg, [Attrs, Item]) + end. + +-spec set_attr('line', attributes(), fun((line()) -> line())) -> attributes(). + +set_attr(line, Line, Fun) when ?ALINE(Line) -> + Ln = Fun(Line), + if + ?ALINE(Ln) -> + Ln; + true -> + [{line,Ln}] + end; +set_attr(line, {Line,Column}, Fun) when ?ALINE(Line), ?COLUMN(Column) -> + Ln = Fun(Line), + if + ?ALINE(Ln) -> + {Ln,Column}; + true -> + [{line,Ln},{column,Column}] + end; +set_attr(line=Tag, Attrs, Fun) when is_list(Attrs) -> + {line,Line} = lists:keyfind(Tag, 1, Attrs), + case lists:keyreplace(Tag, 1, Attrs, {line,Fun(Line)}) of + [{line,Ln}] when ?ALINE(Ln) -> + Ln; + As -> + As + end; +set_attr(T1, T2, T3) -> + erlang:error(badarg, [T1,T2,T3]). + +tokens1(Cs, St, Line, Col, Toks, Fun, Any) when ?STRING(Cs); Cs =:= eof -> + case Fun(Cs, St, Line, Col, Toks, Any) of + {more,{Cs0,Ncol,Ntoks,Nline,Nany,Nfun}} -> + {more,{erl_scan_continuation,Cs0,Ncol,Ntoks,Nline,St,Nany,Nfun}}; + {ok,Toks0,eof,Nline,Ncol} -> + Res = case Toks0 of + [] -> + {eof,location(Nline, Ncol)}; + _ -> + {ok,lists:reverse(Toks0),location(Nline,Ncol)} + end, + {done,Res,eof}; + {ok,Toks0,Rest,Nline,Ncol} -> + {done,{ok,lists:reverse(Toks0),location(Nline, Ncol)},Rest}; + {{error,_,_}=Error,Rest} -> + {done,Error,Rest} + end. + +string1(Cs, St, Line, Col, Toks) -> + case scan1(Cs, St, Line, Col, Toks) of + {more,{Cs0,Ncol,Ntoks,Nline,Any,Fun}} -> + case Fun(Cs0++eof, St, Nline, Ncol, Ntoks, Any) of + {ok,Toks1,_Rest,Line2,Col2} -> + {ok,lists:reverse(Toks1),location(Line2, Col2)}; + {{error,_,_}=Error,_Rest} -> + Error + end; + {ok,Ntoks,[_|_]=Rest,Nline,Ncol} -> + string1(Rest, St, Nline, Ncol, Ntoks); + {ok,Ntoks,_,Nline,Ncol} -> + {ok,lists:reverse(Ntoks),location(Nline, Ncol)}; + {{error,_,_}=Error,_Rest} -> + Error + end. + +scan(Cs, St, Line, Col, Toks, _) -> + scan1(Cs, St, Line, Col, Toks). + +scan1([$\s|Cs], St, Line, Col, Toks) when St#erl_scan.ws -> + scan_spcs(Cs, St, Line, Col, Toks, 1); +scan1([$\s|Cs], St, Line, Col, Toks) -> + skip_white_space(Cs, St, Line, Col, Toks, 1); +scan1([$\n|Cs], St, Line, Col, Toks) when St#erl_scan.ws -> + scan_newline(Cs, St, Line, Col, Toks); +scan1([$\n|Cs], St, Line, Col, Toks) -> + skip_white_space(Cs, St, Line+1, new_column(Col, 1), Toks, 0); +scan1([C|Cs], St, Line, Col, Toks) when C >= $A, C =< $Z -> + scan_variable(Cs, St, Line, Col, Toks, [C]); +scan1([C|Cs], St, Line, Col, Toks) when C >= $a, C =< $z -> + scan_atom(Cs, St, Line, Col, Toks, [C]); +%% Optimization: some very common punctuation characters: +scan1([$,|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, ",", ',', 1); +scan1([$(|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "(", '(', 1); +scan1([$)|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, ")", ')', 1); +scan1([${|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "{", '{', 1); +scan1([$}|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "}", '}', 1); +scan1([$[|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "[", '[', 1); +scan1([$]|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "]", ']', 1); +scan1([$;|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, ";", ';', 1); +scan1([$_=C|Cs], St, Line, Col, Toks) -> + scan_variable(Cs, St, Line, Col, Toks, [C]); +%% More punctuation characters below. +scan1([$\%|Cs], St, Line, Col, Toks) when not St#erl_scan.comment -> + skip_comment(Cs, St, Line, Col, Toks, 1); +scan1([$\%=C|Cs], St, Line, Col, Toks) -> + scan_comment(Cs, St, Line, Col, Toks, [C]); +scan1([C|Cs], St, Line, Col, Toks) when ?DIGIT(C) -> + scan_number(Cs, St, Line, Col, Toks, [C]); +scan1("..."++Cs, St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "...", '...', 3); +scan1(".."=Cs, _St, Line, Col, Toks) -> + {more,{Cs,Col,Toks,Line,[],fun scan/6}}; +scan1(".."++Cs, St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "..", '..', 2); +scan1("."=Cs, _St, Line, Col, Toks) -> + {more,{Cs,Col,Toks,Line,[],fun scan/6}}; +scan1([$.=C|Cs], St, Line, Col, Toks) -> + scan_dot(Cs, St, Line, Col, Toks, [C]); +scan1([$"|Cs], St, Line, Col, Toks) -> %" Emacs + State0 = {[],[],Line,Col}, + scan_string(Cs, St, Line, incr_column(Col, 1), Toks, State0); +scan1([$'|Cs], St, Line, Col, Toks) -> %' Emacs + State0 = {[],[],Line,Col}, + scan_qatom(Cs, St, Line, incr_column(Col, 1), Toks, State0); +scan1([$$|Cs], St, Line, Col, Toks) -> + scan_char(Cs, St, Line, Col, Toks); +scan1([$\r|Cs], St, Line, Col, Toks) when St#erl_scan.ws -> + white_space_end(Cs, St, Line, Col, Toks, 1, "\r"); +scan1([C|Cs], St, Line, Col, Toks) when C >= $ß, C =< $ÿ, C =/= $÷ -> + scan_atom(Cs, St, Line, Col, Toks, [C]); +scan1([C|Cs], St, Line, Col, Toks) when C >= $À, C =< $Þ, C /= $× -> + scan_variable(Cs, St, Line, Col, Toks, [C]); +scan1([$\t|Cs], St, Line, Col, Toks) when St#erl_scan.ws -> + scan_tabs(Cs, St, Line, Col, Toks, 1); +scan1([$\t|Cs], St, Line, Col, Toks) -> + skip_white_space(Cs, St, Line, Col, Toks, 1); +scan1([C|Cs], St, Line, Col, Toks) when ?WHITE_SPACE(C) -> + case St#erl_scan.ws of + true -> + scan_white_space(Cs, St, Line, Col, Toks, [C]); + false -> + skip_white_space(Cs, St, Line, Col, Toks, 1) + end; +%% Punctuation characters and operators, first recognise multiples. +%% << <- <= +scan1("<<"++Cs, St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "<<", '<<', 2); +scan1("<-"++Cs, St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "<-", '<-', 2); +scan1("<="++Cs, St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "<=", '<=', 2); +scan1("<"=Cs, _St, Line, Col, Toks) -> + {more,{Cs,Col,Toks,Line,[],fun scan/6}}; +%% >> >= +scan1(">>"++Cs, St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, ">>", '>>', 2); +scan1(">="++Cs, St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, ">=", '>=', 2); +scan1(">"=Cs, _St, Line, Col, Toks) -> + {more,{Cs,Col,Toks,Line,[],fun scan/6}}; +%% -> -- +scan1("->"++Cs, St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "->", '->', 2); +scan1("--"++Cs, St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "--", '--', 2); +scan1("-"=Cs, _St, Line, Col, Toks) -> + {more,{Cs,Col,Toks,Line,[],fun scan/6}}; +%% ++ +scan1("++"++Cs, St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "++", '++', 2); +scan1("+"=Cs, _St, Line, Col, Toks) -> + {more,{Cs,Col,Toks,Line,[],fun scan/6}}; +%% =:= =/= =< == +scan1("=:="++Cs, St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "=:=", '=:=', 3); +scan1("=:"=Cs, _St, Line, Col, Toks) -> + {more,{Cs,Col,Toks,Line,[],fun scan/6}}; +scan1("=/="++Cs, St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "=/=", '=/=', 3); +scan1("=/"=Cs, _St, Line, Col, Toks) -> + {more,{Cs,Col,Toks,Line,[],fun scan/6}}; +scan1("=<"++Cs, St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "=<", '=<', 2); +scan1("=="++Cs, St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "==", '==', 2); +scan1("="=Cs, _St, Line, Col, Toks) -> + {more,{Cs,Col,Toks,Line,[],fun scan/6}}; +%% /= +scan1("/="++Cs, St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "/=", '/=', 2); +scan1("/"=Cs, _St, Line, Col, Toks) -> + {more,{Cs,Col,Toks,Line,[],fun scan/6}}; +%% || +scan1("||"++Cs, St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "||", '||', 2); +scan1("|"=Cs, _St, Line, Col, Toks) -> + {more,{Cs,Col,Toks,Line,[],fun scan/6}}; +%% :- +scan1(":-"++Cs, St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, ":-", ':-', 2); +%% :: for typed records +scan1("::"++Cs, St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "::", '::', 2); +scan1(":"=Cs, _St, Line, Col, Toks) -> + {more,{Cs,Col,Toks,Line,[],fun scan/6}}; +%% Optimization: punctuation characters less than 127: +scan1([$=|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "=", '=', 1); +scan1([$:|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, ":", ':', 1); +scan1([$||Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "|", '|', 1); +scan1([$#|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "#", '#', 1); +scan1([$/|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "/", '/', 1); +scan1([$?|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "?", '?', 1); +scan1([$-|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "-", '-', 1); +scan1([$+|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "+", '+', 1); +scan1([$*|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "*", '*', 1); +scan1([$<|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "<", '<', 1); +scan1([$>|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, ">", '>', 1); +scan1([$!|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "!", '!', 1); +scan1([$@|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "@", '@', 1); +scan1([$\\|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "\\", '\\', 1); +scan1([$^|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "^", '^', 1); +scan1([$`|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "`", '`', 1); +scan1([$~|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "~", '~', 1); +scan1([$&|Cs], St, Line, Col, Toks) -> + tok2(Cs, St, Line, Col, Toks, "&", '&', 1); +%% End of optimization. +scan1([C|Cs], St, Line, Col, Toks) when ?UNI255(C) -> + Str = [C], + tok2(Cs, St, Line, Col, Toks, Str, list_to_atom(Str), 1); +scan1([C|Cs], _St, Line, Col, _Toks) when ?CHAR(C) -> + Ncol = incr_column(Col, 1), + scan_error({illegal,character}, Line, Col, Line, Ncol, Cs); +scan1([]=Cs, _St, Line, Col, Toks) -> + {more,{Cs,Col,Toks,Line,[],fun scan/6}}; +scan1(eof=Cs, _St, Line, Col, Toks) -> + {ok,Toks,Cs,Line,Col}. + +scan_atom(Cs0, St, Line, Col, Toks, Ncs0) -> + case scan_name(Cs0, Ncs0) of + {more,Ncs} -> + {more,{[],Col,Toks,Line,Ncs,fun scan_atom/6}}; + {Wcs,Cs} -> + case catch list_to_atom(Wcs) of + Name when is_atom(Name) -> + case (St#erl_scan.resword_fun)(Name) of + true -> + tok2(Cs, St, Line, Col, Toks, Wcs, Name); + false -> + tok3(Cs, St, Line, Col, Toks, atom, Wcs, Name) + end; + _Error -> + Ncol = incr_column(Col, length(Wcs)), + scan_error({illegal,atom}, Line, Col, Line, Ncol, Cs) + end + end. + +scan_variable(Cs0, St, Line, Col, Toks, Ncs0) -> + case scan_name(Cs0, Ncs0) of + {more,Ncs} -> + {more,{[],Col,Toks,Line,Ncs,fun scan_variable/6}}; + {Wcs,Cs} -> + case catch list_to_atom(Wcs) of + Name when is_atom(Name) -> + tok3(Cs, St, Line, Col, Toks, var, Wcs, Name); + _Error -> + Ncol = incr_column(Col, length(Wcs)), + scan_error({illegal,var}, Line, Col, Line, Ncol, Cs) + end + end. + +scan_name([C|Cs], Ncs) when C >= $a, C =< $z -> + scan_name(Cs, [C|Ncs]); +scan_name([C|Cs], Ncs) when C >= $A, C =< $Z -> + scan_name(Cs, [C|Ncs]); +scan_name([$_=C|Cs], Ncs) -> + scan_name(Cs, [C|Ncs]); +scan_name([C|Cs], Ncs) when ?DIGIT(C) -> + scan_name(Cs, [C|Ncs]); +scan_name([$@=C|Cs], Ncs) -> + scan_name(Cs, [C|Ncs]); +scan_name([C|Cs], Ncs) when C >= $ß, C =< $ÿ, C =/= $÷ -> + scan_name(Cs, [C|Ncs]); +scan_name([C|Cs], Ncs) when C >= $À, C =< $Þ, C =/= $× -> + scan_name(Cs, [C|Ncs]); +scan_name([], Ncs) -> + {more,Ncs}; +scan_name(Cs, Ncs) -> + {lists:reverse(Ncs),Cs}. + +-define(STR(St, S), if St#erl_scan.text -> S; true -> [] end). + +scan_dot([$%|_]=Cs, St, Line, Col, Toks, Ncs) -> + Attrs = attributes(Line, Col, St, Ncs), + {ok,[{dot,Attrs}|Toks],Cs,Line,incr_column(Col, 1)}; +scan_dot([$\n=C|Cs], St, Line, Col, Toks, Ncs) -> + Attrs = attributes(Line, Col, St, ?STR(St, Ncs++[C])), + {ok,[{dot,Attrs}|Toks],Cs,Line+1,new_column(Col, 1)}; +scan_dot([C|Cs], St, Line, Col, Toks, Ncs) when ?WHITE_SPACE(C) -> + Attrs = attributes(Line, Col, St, ?STR(St, Ncs++[C])), + {ok,[{dot,Attrs}|Toks],Cs,Line,incr_column(Col, 2)}; +scan_dot(eof=Cs, St, Line, Col, Toks, Ncs) -> + Attrs = attributes(Line, Col, St, Ncs), + {ok,[{dot,Attrs}|Toks],Cs,Line,incr_column(Col, 1)}; +scan_dot(Cs, St, Line, Col, Toks, Ncs) -> + tok2(Cs, St, Line, Col, Toks, Ncs, '.', 1). + +%%% White space characters are very common, so it is worthwhile to +%%% scan them fast and store them compactly. (The words "whitespace" +%%% and "white space" usually mean the same thing. The Erlang +%%% specification denotes the characters with ASCII code in the +%%% interval 0 to 32 as "white space".) +%%% +%%% Convention: if there is a white newline ($\n) it will always be +%%% the first character in the text string. As a consequence, there +%%% cannot be more than one newline in a white_space token string. +%%% +%%% Some common combinations are recognized, some are not. Examples +%%% of the latter are tab(s) followed by space(s), like "\t ". +%%% (They will be represented by two (or more) tokens.) +%%% +%%% Note: the character sequence "\r\n" is *not* recognized since it +%%% would violate the property that $\n will always be the first +%%% character. (But since "\r\n\r\n" is common, it pays off to +%%% recognize "\n\r".) + +scan_newline([$\s|Cs], St, Line, Col, Toks) -> + scan_nl_spcs(Cs, St, Line, Col, Toks, 2); +scan_newline([$\t|Cs], St, Line, Col, Toks) -> + scan_nl_tabs(Cs, St, Line, Col, Toks, 2); +scan_newline([$\r|Cs], St, Line, Col, Toks) -> + newline_end(Cs, St, Line, Col, Toks, 2, "\n\r"); +scan_newline([$\f|Cs], St, Line, Col, Toks) -> + newline_end(Cs, St, Line, Col, Toks, 2, "\n\f"); +scan_newline([], _St, Line, Col, Toks) -> + {more,{[$\n],Col,Toks,Line,[],fun scan/6}}; +scan_newline(Cs, St, Line, Col, Toks) -> + scan_nl_white_space(Cs, St, Line, Col, Toks, "\n"). + +scan_nl_spcs([$\s|Cs], St, Line, Col, Toks, N) when N < 17 -> + scan_nl_spcs(Cs, St, Line, Col, Toks, N+1); +scan_nl_spcs([]=Cs, _St, Line, Col, Toks, N) -> + {more,{Cs,Col,Toks,Line,N,fun scan_nl_spcs/6}}; +scan_nl_spcs(Cs, St, Line, Col, Toks, N) -> + newline_end(Cs, St, Line, Col, Toks, N, nl_spcs(N)). + +scan_nl_tabs([$\t|Cs], St, Line, Col, Toks, N) when N < 11 -> + scan_nl_tabs(Cs, St, Line, Col, Toks, N+1); +scan_nl_tabs([]=Cs, _St, Line, Col, Toks, N) -> + {more,{Cs,Col,Toks,Line,N,fun scan_nl_tabs/6}}; +scan_nl_tabs(Cs, St, Line, Col, Toks, N) -> + newline_end(Cs, St, Line, Col, Toks, N, nl_tabs(N)). + +%% Note: returning {more,Cont} is meaningless here; one could just as +%% well return several tokens. But since tokens() scans up to a full +%% stop anyway, nothing is gained by not collecting all white spaces. +scan_nl_white_space([$\n|Cs], #erl_scan{text = false}=St, Line, no_col=Col, + Toks0, Ncs) -> + Toks = [{white_space,Line,lists:reverse(Ncs)}|Toks0], + scan_newline(Cs, St, Line+1, Col, Toks); +scan_nl_white_space([$\n|Cs], St, Line, Col, Toks, Ncs0) -> + Ncs = lists:reverse(Ncs0), + Attrs = attributes(Line, Col, St, Ncs), + Token = {white_space,Attrs,Ncs}, + scan_newline(Cs, St, Line+1, new_column(Col, length(Ncs)), [Token|Toks]); +scan_nl_white_space([C|Cs], St, Line, Col, Toks, Ncs) when ?WHITE_SPACE(C) -> + scan_nl_white_space(Cs, St, Line, Col, Toks, [C|Ncs]); +scan_nl_white_space([]=Cs, _St, Line, Col, Toks, Ncs) -> + {more,{Cs,Col,Toks,Line,Ncs,fun scan_nl_white_space/6}}; +scan_nl_white_space(Cs, #erl_scan{text = false}=St, Line, no_col=Col, + Toks, Ncs) -> + scan1(Cs, St, Line+1, Col, [{white_space,Line,lists:reverse(Ncs)}|Toks]); +scan_nl_white_space(Cs, St, Line, Col, Toks, Ncs0) -> + Ncs = lists:reverse(Ncs0), + Attrs = attributes(Line, Col, St, Ncs), + Token = {white_space,Attrs,Ncs}, + scan1(Cs, St, Line+1, new_column(Col, length(Ncs)), [Token|Toks]). + +newline_end(Cs, #erl_scan{text = false}=St, Line, no_col=Col, + Toks, _N, Ncs) -> + scan1(Cs, St, Line+1, Col, [{white_space,Line,Ncs}|Toks]); +newline_end(Cs, St, Line, Col, Toks, N, Ncs) -> + Attrs = attributes(Line, Col, St, Ncs), + scan1(Cs, St, Line+1, new_column(Col, N), [{white_space,Attrs,Ncs}|Toks]). + +scan_spcs([$\s|Cs], St, Line, Col, Toks, N) when N < 16 -> + scan_spcs(Cs, St, Line, Col, Toks, N+1); +scan_spcs([]=Cs, _St, Line, Col, Toks, N) -> + {more,{Cs,Col,Toks,Line,N,fun scan_spcs/6}}; +scan_spcs(Cs, St, Line, Col, Toks, N) -> + white_space_end(Cs, St, Line, Col, Toks, N, spcs(N)). + +scan_tabs([$\t|Cs], St, Line, Col, Toks, N) when N < 10 -> + scan_tabs(Cs, St, Line, Col, Toks, N+1); +scan_tabs([]=Cs, _St, Line, Col, Toks, N) -> + {more,{Cs,Col,Toks,Line,N,fun scan_tabs/6}}; +scan_tabs(Cs, St, Line, Col, Toks, N) -> + white_space_end(Cs, St, Line, Col, Toks, N, tabs(N)). + +skip_white_space([$\n|Cs], St, Line, Col, Toks, _N) -> + skip_white_space(Cs, St, Line+1, new_column(Col, 1), Toks, 0); +skip_white_space([C|Cs], St, Line, Col, Toks, N) when ?WHITE_SPACE(C) -> + skip_white_space(Cs, St, Line, Col, Toks, N+1); +skip_white_space([]=Cs, _St, Line, Col, Toks, N) -> + {more,{Cs,Col,Toks,Line,N,fun skip_white_space/6}}; +skip_white_space(Cs, St, Line, Col, Toks, N) -> + scan1(Cs, St, Line, incr_column(Col, N), Toks). + +%% Maybe \t and \s should break the loop. +scan_white_space([$\n|_]=Cs, St, Line, Col, Toks, Ncs) -> + white_space_end(Cs, St, Line, Col, Toks, length(Ncs), lists:reverse(Ncs)); +scan_white_space([C|Cs], St, Line, Col, Toks, Ncs) when ?WHITE_SPACE(C) -> + scan_white_space(Cs, St, Line, Col, Toks, [C|Ncs]); +scan_white_space([]=Cs, _St, Line, Col, Toks, Ncs) -> + {more,{Cs,Col,Toks,Line,Ncs,fun scan_white_space/6}}; +scan_white_space(Cs, St, Line, Col, Toks, Ncs) -> + white_space_end(Cs, St, Line, Col, Toks, length(Ncs), lists:reverse(Ncs)). + +-compile({inline,[white_space_end/7]}). + +white_space_end(Cs, St, Line, Col, Toks, N, Ncs) -> + tok3(Cs, St, Line, Col, Toks, white_space, Ncs, Ncs, N). + +scan_char([$\\|Cs]=Cs0, St, Line, Col, Toks) -> + case scan_escape(Cs, incr_column(Col, 2)) of + more -> + {more,{[$$|Cs0],Col,Toks,Line,[],fun scan/6}}; + {error,Ncs,Error,Ncol} -> + scan_error(Error, Line, Col, Line, Ncol, Ncs); + {eof,Ncol} -> + scan_error(char, Line, Col, Line, Ncol, eof); + {nl,Val,Str,Ncs,Ncol} -> + Attrs = attributes(Line, Col, St, ?STR(St, "$\\"++Str)), %" + Ntoks = [{char,Attrs,Val}|Toks], + scan1(Ncs, St, Line+1, Ncol, Ntoks); + {Val,Str,Ncs,Ncol} -> + Attrs = attributes(Line, Col, St, ?STR(St, "$\\"++Str)), %" + Ntoks = [{char,Attrs,Val}|Toks], + scan1(Ncs, St, Line, Ncol, Ntoks) + end; +scan_char([$\n=C|Cs], St, Line, Col, Toks) -> + Attrs = attributes(Line, Col, St, ?STR(St, [$$,C])), + scan1(Cs, St, Line+1, new_column(Col, 1), [{char,Attrs,C}|Toks]); +scan_char([C|Cs], St, Line, Col, Toks) when ?UNICODE(C) -> + Attrs = attributes(Line, Col, St, ?STR(St, [$$,C])), + scan1(Cs, St, Line, incr_column(Col, 2), [{char,Attrs,C}|Toks]); +scan_char([C|_Cs], _St, Line, Col, _Toks) when ?CHAR(C) -> + scan_error({illegal,character}, Line, Col, Line, incr_column(Col, 1), eof); +scan_char([], _St, Line, Col, Toks) -> + {more,{[$$],Col,Toks,Line,[],fun scan/6}}; +scan_char(eof, _St, Line, Col, _Toks) -> + scan_error(char, Line, Col, Line, incr_column(Col, 1), eof). + +scan_string(Cs, St, Line, Col, Toks, {Wcs,Str,Line0,Col0}) -> + case scan_string0(Cs, St, Line, Col, $\", Str, Wcs) of %" + {more,Ncs,Nline,Ncol,Nstr,Nwcs} -> + State = {Nwcs,Nstr,Line0,Col0}, + {more,{Ncs,Ncol,Toks,Nline,State,fun scan_string/6}}; + {char_error,Ncs,Error,Nline,Ncol,EndCol} -> + scan_error(Error, Nline, Ncol, Nline, EndCol, Ncs); + {error,Nline,Ncol,Nwcs,Ncs} -> + Estr = string:substr(Nwcs, 1, 16), % Expanded escape chars. + scan_error({string,$\",Estr}, Line0, Col0, Nline, Ncol, Ncs); %" + {Ncs,Nline,Ncol,Nstr,Nwcs} -> + Attrs = attributes(Line0, Col0, St, Nstr), + scan1(Ncs, St, Nline, Ncol, [{string,Attrs,Nwcs}|Toks]) + end. + +scan_qatom(Cs, St, Line, Col, Toks, {Wcs,Str,Line0,Col0}) -> + case scan_string0(Cs, St, Line, Col, $\', Str, Wcs) of %' + {more,Ncs,Nline,Ncol,Nstr,Nwcs} -> + State = {Nwcs,Nstr,Line0,Col0}, + {more,{Ncs,Ncol,Toks,Nline,State,fun scan_qatom/6}}; + {char_error,Ncs,Error,Nline,Ncol,EndCol} -> + scan_error(Error, Nline, Ncol, Nline, EndCol, Ncs); + {error,Nline,Ncol,Nwcs,Ncs} -> + Estr = string:substr(Nwcs, 1, 16), % Expanded escape chars. + scan_error({string,$\',Estr}, Line0, Col0, Nline, Ncol, Ncs); %' + {Ncs,Nline,Ncol,Nstr,Nwcs} -> + case catch list_to_atom(Nwcs) of + A when is_atom(A) -> + Attrs = attributes(Line0, Col0, St, Nstr), + scan1(Ncs, St, Nline, Ncol, [{atom,Attrs,A}|Toks]); + _ -> + scan_error({illegal,atom}, Line0, Col0, Nline, Ncol, Ncs) + end + end. + +scan_string0(Cs, #erl_scan{text=false}, Line, no_col=Col, Q, [], Wcs) -> + scan_string_no_col(Cs, Line, Col, Q, Wcs); +scan_string0(Cs, #erl_scan{text=true}, Line, no_col=Col, Q, Str, Wcs) -> + scan_string1(Cs, Line, Col, Q, Str, Wcs); +scan_string0(Cs, St, Line, Col, Q, [], Wcs) -> + scan_string_col(Cs, St, Line, Col, Q, Wcs); +scan_string0(Cs, _St, Line, Col, Q, Str, Wcs) -> + scan_string1(Cs, Line, Col, Q, Str, Wcs). + +%% Optimization. Col =:= no_col. +scan_string_no_col([Q|Cs], Line, Col, Q, Wcs) -> + {Cs,Line,Col,_DontCare=[],lists:reverse(Wcs)}; +scan_string_no_col([$\n=C|Cs], Line, Col, Q, Wcs) -> + scan_string_no_col(Cs, Line+1, Col, Q, [C|Wcs]); +scan_string_no_col([C|Cs], Line, Col, Q, Wcs) when C =/= $\\, ?UNICODE(C) -> + scan_string_no_col(Cs, Line, Col, Q, [C|Wcs]); +scan_string_no_col(Cs, Line, Col, Q, Wcs) -> + scan_string1(Cs, Line, Col, Q, Wcs, Wcs). + +%% Optimization. Col =/= no_col. +scan_string_col([Q|Cs], St, Line, Col, Q, Wcs0) -> + Wcs = lists:reverse(Wcs0), + Str = ?STR(St, [Q|Wcs++[Q]]), + {Cs,Line,Col+1,Str,Wcs}; +scan_string_col([$\n=C|Cs], St, Line, _xCol, Q, Wcs) -> + scan_string_col(Cs, St, Line+1, 1, Q, [C|Wcs]); +scan_string_col([C|Cs], St, Line, Col, Q, Wcs) when C =/= $\\, ?UNICODE(C) -> + scan_string_col(Cs, St, Line, Col+1, Q, [C|Wcs]); +scan_string_col(Cs, _St, Line, Col, Q, Wcs) -> + scan_string1(Cs, Line, Col, Q, Wcs, Wcs). + +%% Note: in those cases when a 'char_error' tuple is returned below it +%% is tempting to skip over characters up to the first Q character, +%% but then the end location of the error tuple would not correspond +%% to the start location of the returned Rest string. (Maybe the end +%% location could be modified, but that too is ugly.) +scan_string1([Q|Cs], Line, Col, Q, Str0, Wcs0) -> + Wcs = lists:reverse(Wcs0), + Str = [Q|lists:reverse(Str0, [Q])], + {Cs,Line,incr_column(Col, 1),Str,Wcs}; +scan_string1([$\n=C|Cs], Line, Col, Q, Str, Wcs) -> + Ncol = new_column(Col, 1), + scan_string1(Cs, Line+1, Ncol, Q, [C|Str], [C|Wcs]); +scan_string1([$\\|Cs]=Cs0, Line, Col, Q, Str, Wcs) -> + case scan_escape(Cs, Col) of + more -> + {more,Cs0,Line,Col,Str,Wcs}; + {error,Ncs,Error,Ncol} -> + {char_error,Ncs,Error,Line,Col,incr_column(Ncol, 1)}; + {eof,Ncol} -> + {error,Line,incr_column(Ncol, 1),lists:reverse(Wcs),eof}; + {nl,Val,ValStr,Ncs,Ncol} -> + Nstr = lists:reverse(ValStr, [$\\|Str]), + Nwcs = [Val|Wcs], + scan_string1(Ncs, Line+1, Ncol, Q, Nstr, Nwcs); + {Val,ValStr,Ncs,Ncol} -> + Nstr = lists:reverse(ValStr, [$\\|Str]), + Nwcs = [Val|Wcs], + scan_string1(Ncs, Line, incr_column(Ncol, 1), Q, Nstr, Nwcs) + end; +scan_string1([C|Cs], Line, no_col=Col, Q, Str, Wcs) when ?UNICODE(C) -> + scan_string1(Cs, Line, Col, Q, [C|Str], [C|Wcs]); +scan_string1([C|Cs], Line, Col, Q, Str, Wcs) when ?UNICODE(C) -> + scan_string1(Cs, Line, Col+1, Q, [C|Str], [C|Wcs]); +scan_string1([C|Cs], Line, Col, _Q, _Str, _Wcs) when ?CHAR(C) -> + {char_error,Cs,{illegal,character},Line,Col,incr_column(Col, 1)}; +scan_string1([]=Cs, Line, Col, _Q, Str, Wcs) -> + {more,Cs,Line,Col,Str,Wcs}; +scan_string1(eof, Line, Col, _Q, _Str, Wcs) -> + {error,Line,Col,lists:reverse(Wcs),eof}. + +-define(OCT(C), C >= $0, C =< $7). +-define(HEX(C), C >= $0 andalso C =< $9 orelse + C >= $A andalso C =< $F orelse + C >= $a andalso C =< $f). + +%% \<1-3> octal digits +scan_escape([O1,O2,O3|Cs], Col) when ?OCT(O1), ?OCT(O2), ?OCT(O3) -> + Val = (O1*8 + O2)*8 + O3 - 73*$0, + {Val,[O1,O2,O3],Cs,incr_column(Col, 3)}; +scan_escape([O1,O2], _Col) when ?OCT(O1), ?OCT(O2) -> + more; +scan_escape([O1,O2|Cs], Col) when ?OCT(O1), ?OCT(O2) -> + Val = (O1*8 + O2) - 9*$0, + {Val,[O1,O2],Cs,incr_column(Col, 2)}; +scan_escape([O1], _Col) when ?OCT(O1) -> + more; +scan_escape([O1|Cs], Col) when ?OCT(O1) -> + {O1 - $0,[O1],Cs,incr_column(Col, 1)}; +%% \x{<hex digits>} +scan_escape([$x,${|Cs], Col) -> + scan_hex(Cs, incr_column(Col, 2), []); +scan_escape([$x], _Col) -> + more; +scan_escape([$x|eof], Col) -> + {eof,incr_column(Col, 1)}; +%% \x<2> hexadecimal digits +scan_escape([$x,H1,H2|Cs], Col) when ?HEX(H1), ?HEX(H2) -> + Val = erlang:list_to_integer([H1,H2], 16), + {Val,[$x,H1,H2],Cs,incr_column(Col, 3)}; +scan_escape([$x,H1], _Col) when ?HEX(H1) -> + more; +scan_escape([$x|Cs], Col) -> + {error,Cs,{illegal,character},incr_column(Col, 1)}; +%% \^X -> CTL-X +scan_escape([$^=C0,$\n=C|Cs], Col) -> + {nl,C,[C0,C],Cs,new_column(Col, 1)}; +scan_escape([$^=C0,C|Cs], Col) when ?CHAR(C) -> + Val = C band 31, + {Val,[C0,C],Cs,incr_column(Col, 2)}; +scan_escape([$^], _Col) -> + more; +scan_escape([$^|eof], Col) -> + {eof,incr_column(Col, 1)}; +scan_escape([$\n=C|Cs], Col) -> + {nl,C,[C],Cs,new_column(Col, 1)}; +scan_escape([C0|Cs], Col) when ?UNICODE(C0) -> + C = escape_char(C0), + {C,[C0],Cs,incr_column(Col, 1)}; +scan_escape([C|Cs], Col) when ?CHAR(C) -> + {error,Cs,{illegal,character},incr_column(Col, 1)}; +scan_escape([], _Col) -> + more; +scan_escape(eof, Col) -> + {eof,Col}. + +scan_hex([C|Cs], no_col=Col, Wcs) when ?HEX(C) -> + scan_hex(Cs, Col, [C|Wcs]); +scan_hex([C|Cs], Col, Wcs) when ?HEX(C) -> + scan_hex(Cs, Col+1, [C|Wcs]); +scan_hex(Cs, Col, Wcs) -> + scan_esc_end(Cs, Col, Wcs, 16, "x{"). + +scan_esc_end([$}|Cs], Col, Wcs0, B, Str0) -> + Wcs = lists:reverse(Wcs0), + case catch erlang:list_to_integer(Wcs, B) of + Val when ?UNICODE(Val) -> + {Val,Str0++Wcs++[$}],Cs,incr_column(Col, 1)}; + _ -> + {error,Cs,{illegal,character},incr_column(Col, 1)} + end; +scan_esc_end([], _Col, _Wcs, _B, _Str0) -> + more; +scan_esc_end(eof, Col, _Wcs, _B, _Str0) -> + {eof,Col}; +scan_esc_end(Cs, Col, _Wcs, _B, _Str0) -> + {error,Cs,{illegal,character},Col}. + +escape_char($n) -> $\n; % \n = LF +escape_char($r) -> $\r; % \r = CR +escape_char($t) -> $\t; % \t = TAB +escape_char($v) -> $\v; % \v = VT +escape_char($b) -> $\b; % \b = BS +escape_char($f) -> $\f; % \f = FF +escape_char($e) -> $\e; % \e = ESC +escape_char($s) -> $\s; % \s = SPC +escape_char($d) -> $\d; % \d = DEL +escape_char(C) -> C. + +scan_number([C|Cs], St, Line, Col, Toks, Ncs) when ?DIGIT(C) -> + scan_number(Cs, St, Line, Col, Toks, [C|Ncs]); +scan_number([$.,C|Cs], St, Line, Col, Toks, Ncs) when ?DIGIT(C) -> + scan_fraction(Cs, St, Line, Col, Toks, [C,$.|Ncs]); +scan_number([$.]=Cs, _St, Line, Col, Toks, Ncs) -> + {more,{Cs,Col,Toks,Line,Ncs,fun scan_number/6}}; +scan_number([$#|Cs]=Cs0, St, Line, Col, Toks, Ncs0) -> + Ncs = lists:reverse(Ncs0), + case catch list_to_integer(Ncs) of + B when B >= 2, B =< 1+$Z-$A+10 -> + Bcs = ?STR(St, Ncs++[$#]), + scan_based_int(Cs, St, Line, Col, Toks, {B,[],Bcs}); + B -> + Len = length(Ncs), + scan_error({base,B}, Line, Col, Line, incr_column(Col, Len), Cs0) + end; +scan_number([]=Cs, _St, Line, Col, Toks, Ncs) -> + {more,{Cs,Col,Toks,Line,Ncs,fun scan_number/6}}; +scan_number(Cs, St, Line, Col, Toks, Ncs0) -> + Ncs = lists:reverse(Ncs0), + case catch list_to_integer(Ncs) of + N when is_integer(N) -> + tok3(Cs, St, Line, Col, Toks, integer, Ncs, N); + _ -> + Ncol = incr_column(Col, length(Ncs)), + scan_error({illegal,integer}, Line, Col, Line, Ncol, Cs) + end. + +scan_based_int([C|Cs], St, Line, Col, Toks, {B,Ncs,Bcs}) + when ?DIGIT(C), C < $0+B -> + scan_based_int(Cs, St, Line, Col, Toks, {B,[C|Ncs],Bcs}); +scan_based_int([C|Cs], St, Line, Col, Toks, {B,Ncs,Bcs}) + when C >= $A, B > 10, C < $A+B-10 -> + scan_based_int(Cs, St, Line, Col, Toks, {B,[C|Ncs],Bcs}); +scan_based_int([C|Cs], St, Line, Col, Toks, {B,Ncs,Bcs}) + when C >= $a, B > 10, C < $a+B-10 -> + scan_based_int(Cs, St, Line, Col, Toks, {B,[C|Ncs],Bcs}); +scan_based_int([]=Cs, _St, Line, Col, Toks, State) -> + {more,{Cs,Col,Toks,Line,State,fun scan_based_int/6}}; +scan_based_int(Cs, St, Line, Col, Toks, {B,Ncs0,Bcs}) -> + Ncs = lists:reverse(Ncs0), + case catch erlang:list_to_integer(Ncs, B) of + N when is_integer(N) -> + tok3(Cs, St, Line, Col, Toks, integer, ?STR(St, Bcs++Ncs), N); + _ -> + Len = length(Bcs)+length(Ncs), + Ncol = incr_column(Col, Len), + scan_error({illegal,integer}, Line, Col, Line, Ncol, Cs) + end. + +scan_fraction([C|Cs], St, Line, Col, Toks, Ncs) when ?DIGIT(C) -> + scan_fraction(Cs, St, Line, Col, Toks, [C|Ncs]); +scan_fraction([E|Cs], St, Line, Col, Toks, Ncs) when E =:= $e; E =:= $E -> + scan_exponent_sign(Cs, St, Line, Col, Toks, [E|Ncs]); +scan_fraction([]=Cs, _St, Line, Col, Toks, Ncs) -> + {more,{Cs,Col,Toks,Line,Ncs,fun scan_fraction/6}}; +scan_fraction(Cs, St, Line, Col, Toks, Ncs) -> + float_end(Cs, St, Line, Col, Toks, Ncs). + +scan_exponent_sign([C|Cs], St, Line, Col, Toks, Ncs) when C =:= $+; C =:= $- -> + scan_exponent(Cs, St, Line, Col, Toks, [C|Ncs]); +scan_exponent_sign([]=Cs, _St, Line, Col, Toks, Ncs) -> + {more,{Cs,Col,Toks,Line,Ncs,fun scan_exponent_sign/6}}; +scan_exponent_sign(Cs, St, Line, Col, Toks, Ncs) -> + scan_exponent(Cs, St, Line, Col, Toks, Ncs). + +scan_exponent([C|Cs], St, Line, Col, Toks, Ncs) when ?DIGIT(C) -> + scan_exponent(Cs, St, Line, Col, Toks, [C|Ncs]); +scan_exponent([]=Cs, _St, Line, Col, Toks, Ncs) -> + {more,{Cs,Col,Toks,Line,Ncs,fun scan_exponent/6}}; +scan_exponent(Cs, St, Line, Col, Toks, Ncs) -> + float_end(Cs, St, Line, Col, Toks, Ncs). + +float_end(Cs, St, Line, Col, Toks, Ncs0) -> + Ncs = lists:reverse(Ncs0), + case catch list_to_float(Ncs) of + F when is_float(F) -> + tok3(Cs, St, Line, Col, Toks, float, Ncs, F); + _ -> + Ncol = incr_column(Col, length(Ncs)), + scan_error({illegal,float}, Line, Col, Line, Ncol, Cs) + end. + +skip_comment([C|Cs], St, Line, Col, Toks, N) when C =/= $\n, ?CHAR(C) -> + case ?UNICODE(C) of + true -> + skip_comment(Cs, St, Line, Col, Toks, N+1); + false -> + Ncol = incr_column(Col, N+1), + scan_error({illegal,character}, Line, Col, Line, Ncol, Cs) + end; +skip_comment([]=Cs, _St, Line, Col, Toks, N) -> + {more,{Cs,Col,Toks,Line,N,fun skip_comment/6}}; +skip_comment(Cs, St, Line, Col, Toks, N) -> + scan1(Cs, St, Line, incr_column(Col, N), Toks). + +scan_comment([C|Cs], St, Line, Col, Toks, Ncs) when C =/= $\n, ?CHAR(C) -> + case ?UNICODE(C) of + true -> + scan_comment(Cs, St, Line, Col, Toks, [C|Ncs]); + false -> + Ncol = incr_column(Col, length(Ncs)+1), + scan_error({illegal,character}, Line, Col, Line, Ncol, Cs) + end; +scan_comment([]=Cs, _St, Line, Col, Toks, Ncs) -> + {more,{Cs,Col,Toks,Line,Ncs,fun scan_comment/6}}; +scan_comment(Cs, St, Line, Col, Toks, Ncs0) -> + Ncs = lists:reverse(Ncs0), + tok3(Cs, St, Line, Col, Toks, comment, Ncs, Ncs). + +tok2(Cs, #erl_scan{text = false}=St, Line, no_col=Col, Toks, _Wcs, P) -> + scan1(Cs, St, Line, Col, [{P,Line}|Toks]); +tok2(Cs, St, Line, Col, Toks, Wcs, P) -> + Attrs = attributes(Line, Col, St, Wcs), + scan1(Cs, St, Line, incr_column(Col, length(Wcs)), [{P,Attrs}|Toks]). + +tok2(Cs, #erl_scan{text = false}=St, Line, no_col=Col, Toks, _Wcs, P, _N) -> + scan1(Cs, St, Line, Col, [{P,Line}|Toks]); +tok2(Cs, St, Line, Col, Toks, Wcs, P, N) -> + Attrs = attributes(Line, Col, St, Wcs), + scan1(Cs, St, Line, incr_column(Col, N), [{P,Attrs}|Toks]). + +tok3(Cs, #erl_scan{text = false}=St, Line, no_col=Col, Toks, Item, _S, Sym) -> + scan1(Cs, St, Line, Col, [{Item,Line,Sym}|Toks]); +tok3(Cs, St, Line, Col, Toks, Item, String, Sym) -> + Token = {Item,attributes(Line, Col, St, String),Sym}, + scan1(Cs, St, Line, incr_column(Col, length(String)), [Token|Toks]). + +tok3(Cs, #erl_scan{text = false}=St, Line, no_col=Col, Toks, Item, + _String, Sym, _Length) -> + scan1(Cs, St, Line, Col, [{Item,Line,Sym}|Toks]); +tok3(Cs, St, Line, Col, Toks, Item, String, Sym, Length) -> + Token = {Item,attributes(Line, Col, St, String),Sym}, + scan1(Cs, St, Line, incr_column(Col, Length), [Token|Toks]). + +scan_error(Error, Line, Col, EndLine, EndCol, Rest) -> + Loc = location(Line, Col), + EndLoc = location(EndLine, EndCol), + scan_error(Error, Loc, EndLoc, Rest). + +scan_error(Error, ErrorLoc, EndLoc, Rest) -> + {{error,{ErrorLoc,?MODULE,Error},EndLoc},Rest}. + +-compile({inline,[attributes/4]}). + +attributes(Line, no_col, #erl_scan{text = false}, _String) -> + Line; +attributes(Line, no_col, #erl_scan{text = true}, String) -> + [{line,Line},{text,String}]; +attributes(Line, Col, #erl_scan{text = false}, _String) -> + {Line,Col}; +attributes(Line, Col, #erl_scan{text = true}, String) -> + [{line,Line},{column,Col},{text,String}]. + +location(Line, no_col) -> + Line; +location(Line, Col) when is_integer(Col) -> + {Line,Col}. + +-compile({inline,[incr_column/2,new_column/2]}). + +incr_column(no_col=Col, _N) -> + Col; +incr_column(Col, N) when is_integer(Col) -> + Col + N. + +new_column(no_col=Col, _Ncol) -> + Col; +new_column(Col, Ncol) when is_integer(Col) -> + Ncol. + +nl_spcs(2) -> "\n "; +nl_spcs(3) -> "\n "; +nl_spcs(4) -> "\n "; +nl_spcs(5) -> "\n "; +nl_spcs(6) -> "\n "; +nl_spcs(7) -> "\n "; +nl_spcs(8) -> "\n "; +nl_spcs(9) -> "\n "; +nl_spcs(10) -> "\n "; +nl_spcs(11) -> "\n "; +nl_spcs(12) -> "\n "; +nl_spcs(13) -> "\n "; +nl_spcs(14) -> "\n "; +nl_spcs(15) -> "\n "; +nl_spcs(16) -> "\n "; +nl_spcs(17) -> "\n ". + +spcs(1) -> " "; +spcs(2) -> " "; +spcs(3) -> " "; +spcs(4) -> " "; +spcs(5) -> " "; +spcs(6) -> " "; +spcs(7) -> " "; +spcs(8) -> " "; +spcs(9) -> " "; +spcs(10) -> " "; +spcs(11) -> " "; +spcs(12) -> " "; +spcs(13) -> " "; +spcs(14) -> " "; +spcs(15) -> " "; +spcs(16) -> " ". + +nl_tabs(2) -> "\n\t"; +nl_tabs(3) -> "\n\t\t"; +nl_tabs(4) -> "\n\t\t\t"; +nl_tabs(5) -> "\n\t\t\t\t"; +nl_tabs(6) -> "\n\t\t\t\t\t"; +nl_tabs(7) -> "\n\t\t\t\t\t\t"; +nl_tabs(8) -> "\n\t\t\t\t\t\t\t"; +nl_tabs(9) -> "\n\t\t\t\t\t\t\t\t"; +nl_tabs(10) -> "\n\t\t\t\t\t\t\t\t\t"; +nl_tabs(11) -> "\n\t\t\t\t\t\t\t\t\t\t". + +tabs(1) -> "\t"; +tabs(2) -> "\t\t"; +tabs(3) -> "\t\t\t"; +tabs(4) -> "\t\t\t\t"; +tabs(5) -> "\t\t\t\t\t"; +tabs(6) -> "\t\t\t\t\t\t"; +tabs(7) -> "\t\t\t\t\t\t\t"; +tabs(8) -> "\t\t\t\t\t\t\t\t"; +tabs(9) -> "\t\t\t\t\t\t\t\t\t"; +tabs(10) -> "\t\t\t\t\t\t\t\t\t\t". + +-spec reserved_word(Atom :: atom()) -> boolean(). +reserved_word('after') -> true; +reserved_word('begin') -> true; +reserved_word('case') -> true; +reserved_word('try') -> true; +reserved_word('cond') -> true; +reserved_word('catch') -> true; +reserved_word('andalso') -> true; +reserved_word('orelse') -> true; +reserved_word('end') -> true; +reserved_word('fun') -> true; +reserved_word('if') -> true; +reserved_word('let') -> true; +reserved_word('of') -> true; +reserved_word('receive') -> true; +reserved_word('when') -> true; +reserved_word('bnot') -> true; +reserved_word('not') -> true; +reserved_word('div') -> true; +reserved_word('rem') -> true; +reserved_word('band') -> true; +reserved_word('and') -> true; +reserved_word('bor') -> true; +reserved_word('bxor') -> true; +reserved_word('bsl') -> true; +reserved_word('bsr') -> true; +reserved_word('or') -> true; +reserved_word('xor') -> true; +reserved_word(_) -> false. diff --git a/lib/dialyzer/test/opaque_SUITE_data/src/opaque/opaque_adt.erl b/lib/dialyzer/test/opaque_SUITE_data/src/opaque/opaque_adt.erl index 3456f0e9c6..cdcaa5f9e8 100644 --- a/lib/dialyzer/test/opaque_SUITE_data/src/opaque/opaque_adt.erl +++ b/lib/dialyzer/test/opaque_SUITE_data/src/opaque/opaque_adt.erl @@ -3,6 +3,8 @@ -opaque abc() :: 'a' | 'b' | 'c'. +-spec atom_or_list(_) -> abc() | list(). + atom_or_list(1) -> a; atom_or_list(2) -> b; atom_or_list(3) -> c; diff --git a/lib/dialyzer/test/opaque_SUITE_data/src/simple/exact_adt.erl b/lib/dialyzer/test/opaque_SUITE_data/src/simple/exact_adt.erl new file mode 100644 index 0000000000..7103847ae7 --- /dev/null +++ b/lib/dialyzer/test/opaque_SUITE_data/src/simple/exact_adt.erl @@ -0,0 +1,17 @@ +-module(exact_adt). + +-export([exact_adt_set_type/1, exact_adt_set_type2/1]). + +-export_type([exact_adt/0]). + +-record(exact_adt, {}). + +-opaque exact_adt() :: #exact_adt{}. + +-spec exact_adt_set_type(_) -> exact_adt(). + +exact_adt_set_type(G) -> G. + +-spec exact_adt_set_type2(exact_adt()) -> exact_adt(). + +exact_adt_set_type2(G) -> G. diff --git a/lib/dialyzer/test/opaque_SUITE_data/src/simple/exact_api.erl b/lib/dialyzer/test/opaque_SUITE_data/src/simple/exact_api.erl new file mode 100644 index 0000000000..5f7ab4f3aa --- /dev/null +++ b/lib/dialyzer/test/opaque_SUITE_data/src/simple/exact_api.erl @@ -0,0 +1,60 @@ +-module(exact_api). + +-export([new/0, exact_api_test/1, exact_api_new/1, + exact_adt_test/1, exact_adt_new/1]). + +-export_type([exact_api/0]). + +-record(digraph, {vtab = notable :: ets:tab(), + etab = notable :: ets:tab(), + ntab = notable :: ets:tab(), + cyclic = true :: boolean()}). + +-spec new() -> digraph(). + +new() -> + A = #digraph{}, + set_type(A), % does not have an opaque term as 1st argument + A. + +-spec set_type(digraph()) -> true. + +set_type(G) -> + digraph:delete(G). + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% + +%%% The derived spec of exact_api_new() is +%%% -spec exact_api_new(exact_api:exact_api()) -> exact_api:exact_api(). +%%% This won't happen unless dialyzer_typesig uses +%%% t_is_exactly_equal() rather than t_is_equal(). +%%% [As of R17B the latter considers two types equal if nothing but +%%% their ?opaque tags differ.] + +-record(exact_api, {}). + +-opaque exact_api() :: #exact_api{}. + +exact_api_test(X) -> + #exact_api{} = exact_api_set_type(X). % OK + +exact_api_new(A) -> + A = #exact_api{}, + _ = exact_api_set_type(A), % OK (the opaque type is local) + A. + +-spec exact_api_set_type(exact_api()) -> exact_api(). + +exact_api_set_type(#exact_api{}=E) -> E. + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% + +-record(exact_adt, {}). + +exact_adt_test(X) -> + #exact_adt{} = exact_adt:exact_adt_set_type(X). % breaks the opaqueness + +exact_adt_new(A) -> + A = #exact_adt{}, + _ = exact_adt:exact_adt_set_type2(A), % does not have an opaque term as 1st argument + A. diff --git a/lib/dialyzer/test/opaque_SUITE_data/src/simple/is_rec.erl b/lib/dialyzer/test/opaque_SUITE_data/src/simple/is_rec.erl new file mode 100644 index 0000000000..2b157483bc --- /dev/null +++ b/lib/dialyzer/test/opaque_SUITE_data/src/simple/is_rec.erl @@ -0,0 +1,65 @@ +-module(is_rec). + +-export([ri1/0, ri11/0, ri13/0, ri14/0, ri2/0, ri3/0, ri4/0, ri5/0, + ri6/0, ri7/0, ri8/0]). + +-record(r, {f1 :: integer()}). + +ri1() -> + A = simple1_adt:d1(), + is_record(A, r). % opaque term 1 + +ri11() -> + A = simple1_adt:d1(), + I = '1-3'(), + is_record(A, r, I). % opaque term 1 + +ri13() -> + A = simple1_adt:d1(), + if is_record(A, r) -> true end. % breaks the opaqueness + +ri14() -> + A = simple1_adt:d1(), + if is_record({A, 1}, r) -> true end. % breaks the opaqueness + +-type '1-3-t'() :: 1..3. + +-spec '1-3'() -> '1-3-t'(). + +'1-3'() -> + random:uniform(3). + + +-spec 'Atom'() -> atom(). + +'Atom'() -> + a. + +ri2() -> + A = simple1_adt:d1(), + R = 'Atom'(), + is_record(A, R). % opaque term 1 + +ri3() -> + A = simple1_adt:d1(), + is_record(A, A, 1). % opaque term 2 + +ri4() -> + A = simple1_adt:d1(), + is_record(A, hipp:hopp(), 1). % opaque term 1 + +ri5() -> + A = simple1_adt:d1(), + is_record(A, A, hipp:hopp()). % opaque term 2 + +ri6() -> + A = simple1_adt:d1(), + if is_record(A, r) -> true end. % breaks opaqueness + +ri7() -> + A = simple1_adt:d1(), + if is_record({r, A}, r) -> true end. % A violates #r{} + +ri8() -> + A = simple1_adt:d1(), + is_record({A, 1}, r). % opaque term 1 diff --git a/lib/dialyzer/test/opaque_SUITE_data/src/simple/rec_adt.erl b/lib/dialyzer/test/opaque_SUITE_data/src/simple/rec_adt.erl new file mode 100644 index 0000000000..ff80d6e99b --- /dev/null +++ b/lib/dialyzer/test/opaque_SUITE_data/src/simple/rec_adt.erl @@ -0,0 +1,28 @@ +-module(rec_adt). + +-export([f/0, r1/0]). + +-export_type([r1/0]). + +-export_type([f/0, op_t/0, a/0]). + +-opaque a() :: a | b. + +-record(r1, + {f1 :: a()}). + +-opaque r1() :: #r1{}. + +-opaque f() :: fun((_) -> _). + +-opaque op_t() :: integer(). + +-spec f() -> f(). + +f() -> + fun(_) -> 3 end. + +-spec r1() -> r1(). + +r1() -> + #r1{f1 = a}. diff --git a/lib/dialyzer/test/opaque_SUITE_data/src/simple/rec_api.erl b/lib/dialyzer/test/opaque_SUITE_data/src/simple/rec_api.erl new file mode 100644 index 0000000000..d9b1d59f0c --- /dev/null +++ b/lib/dialyzer/test/opaque_SUITE_data/src/simple/rec_api.erl @@ -0,0 +1,77 @@ +-module(rec_api). + +-export([t1/0, t2/0, adt_t1/0, adt_t1/1, adt_r1/0, + t/1, t_adt/0, r/0, r_adt/0]). + +-export_type([{a,0},{r1,0}]). + +-export_type([f/0, op_t/0, r/0, tup/0]). + +-opaque a() :: a | b. + +-record(r1, + {f1 :: a()}). + +-opaque r1() :: #r1{}. + +t1() -> + A = #r1{f1 = a}, + {r1, a} = A. + +t2() -> + A = {r1, 10}, % violates the type of #r1{} + {r1, 10} = A. % violates the type of #r1{} + +adt_t1() -> + R = rec_adt:r1(), + {r1, a} = R. % breaks the opaqueness + +-spec adt_t1(rec_adt:r1()) -> rec_adt:r1(). % invalid type spec + +adt_t1(R) -> + {r1, a} = R. + +-spec adt_r1() -> rec_adt:r1(). % invalid type spec + +adt_r1() -> + #r1{f1 = a}. + +-opaque f() :: fun((_) -> _). + +-opaque op_t() :: integer(). + +-spec t(f()) -> _. + +t(A) -> + T = term(), + %% 3(T), % cannot test this: dialyzer_dep deliberately crashes + A(T). + +-spec term() -> op_t(). + +term() -> + 3. + +t_adt() -> + A = rec_adt:f(), + T = term(), + A(T). + +-record(r, {f = fun(_) -> 3 end :: f(), o = 1 :: op_t()}). + +-opaque r() :: #r{}. + +-opaque tup() :: {'r', f(), op_t()}. + +-spec r() -> _. + +r() -> + {r, f(), 2}. % OK, f() is a local opaque type + +-spec f() -> f(). + +f() -> + fun(_) -> 3 end. + +r_adt() -> + {r, rec_adt:f(), 2}. % breaks the opaqueness diff --git a/lib/dialyzer/test/opaque_SUITE_data/src/simple/simple1_adt.erl b/lib/dialyzer/test/opaque_SUITE_data/src/simple/simple1_adt.erl new file mode 100644 index 0000000000..21a277c1e9 --- /dev/null +++ b/lib/dialyzer/test/opaque_SUITE_data/src/simple/simple1_adt.erl @@ -0,0 +1,138 @@ +-module(simple1_adt). + +-export([d1/0, d2/0, i/0, n1/0, n2/0, o1/0, o2/0, + c1/0, c2/0, bit1/0, a/0, i1/0, tuple/0, + b1/0, b2/0, ty_i1/0]). + +-export_type([o1/0, o2/0, d1/0, d2/0]). + +-export_type([i1/0, i2/0, di1/0, di2/0]). + +-export_type([ty_i1/0, c1/0, c2/0]). + +-export_type([b1/0, b2/0]). + +-export_type([bit1/0]). + +-export_type([tuple1/0, a/0, i/0]). + +%% Equal: + +-opaque o1() :: a | b | c. + +-opaque o2() :: a | b | c. + +%% Disjoint: + +-opaque d1() :: a | b | c. + +-opaque d2() :: d | e | f. + +%% One common element: + +-opaque c1() :: a | b | c. + +-opaque c2() :: c | e | f. + +%% Equal integer range: + +-opaque i1() :: 1 | 2. + +-opaque i2() :: 1 | 2. + +%% Disjoint integer range: + +-opaque di1() :: 1 | 2. + +-opaque di2() :: 3 | 4. + + +-type ty_i1() :: 1 | 2. + +%% Boolean types + +-opaque b1() :: boolean(). + +-opaque b2() :: boolean(). + +%% Binary types + +-opaque bit1() :: binary(). + +%% Tuple types + +-opaque tuple1() :: tuple(). + +%% Atom type + +-opaque a() :: atom(). + +-opaque i() :: integer(). + +-spec d1() -> d1(). + +d1() -> a. + +-spec d2() -> d2(). + +d2() -> d. + +-spec i() -> i(). + +i() -> + 1. + +-spec n1() -> o1(). + +n1() -> a. + +-spec n2() -> o2(). + +n2() -> a. + +-spec o1() -> o1(). + +o1() -> a. + +-spec o2() -> o2(). + +o2() -> a. + +-spec c1() -> c1(). + +c1() -> a. + +-spec c2() -> c2(). + +c2() -> e. + +-spec bit1() -> bit1(). + +bit1() -> + <<"hej">>. + +-spec a() -> a(). + +a() -> + e. + +-spec i1() -> i1(). + +i1() -> 1. + +-spec tuple() -> tuple1(). + +tuple() -> {1,2}. + +-spec b1() -> b1(). + +b1() -> true. + +-spec b2() -> b2(). + +b2() -> false. + +-spec ty_i1() -> ty_i1(). + +ty_i1() -> + 1. diff --git a/lib/dialyzer/test/opaque_SUITE_data/src/simple/simple1_api.erl b/lib/dialyzer/test/opaque_SUITE_data/src/simple/simple1_api.erl new file mode 100644 index 0000000000..5135eb8e59 --- /dev/null +++ b/lib/dialyzer/test/opaque_SUITE_data/src/simple/simple1_api.erl @@ -0,0 +1,571 @@ +-module(simple1_api). + +-export([t1/1, adt_t1/1, t2/1, adt_t2/1, tup/0, t3/0, t4/0, t5/0, t6/0, t7/0, + t8/0, adt_t3/0, adt_t4/0, adt_t7/0, adt_t8/0, adt_t5/0, + c1/2, c2/2, c2/0, c3/0, c4/0, tt1/0, tt2/0, + cmp1/0, cmp2/0, cmp3/0, cmp4/0, + ty_cmp1/0, ty_cmp2/0, ty_cmp3/0, ty_cmp4/0, + f1/0, f2/0, adt_f1/0, adt_f2/0, f3/0, f4/0, adt_f3/0, adt_f4/0, + adt_f4_a/0, adt_f4_b/0, + bool_t1/0, bool_t2/0, bool_t3/0, bool_t4/0, bool_t5/1, bool_t6/1, + bool_t7/0, bool_adt_t1/0, bool_adt_t2/0, bool_adt_t5/1, + bool_adt_t6/1, bool_t8/0, bool_adt_t8/2, bool_t9/0, bool_adt_t9/2, + bit_t1/0, bit_adt_t1/0, bit_t3/1, bit_adt_t2/0, bit_adt_t3/1, + bit_t5/1, bit_t4/1, bit_adt_t4/1, bit_t5/0, bit_adt_t5/0, + call_f/1, call_f_adt/1, call_m_adt/1, call_m/1, call_f_i/1, + call_m_i/1, call_m_adt_i/1, call_f_adt_i/1, + eq1/0, eq2/0, c5/0, c6/2, c7/2, c8/0]). + +%%% Equal opaque types + +-export_type([o1/0, o2/0]). + +-export_type([d1/0, d2/0]). + +-opaque o1() :: a | b | c. + +-opaque o2() :: a | b | c. + +-export_type([i1/0, i2/0, di1/0, di2/0]). + +-export_type([b1/0, b2/0]). + +-export_type([bit1/0]). + +-export_type([a/0, i/0]). + +%% The derived spec is +%% -spec t1('a' | 'b') -> simple1_api:o1('a') | simple1_api:o2('a'). +%% but that is not tested... + +t1(a) -> + o1(); +t1(b) -> + o2(). + +-spec o1() -> o1(). + +o1() -> a. + +-spec o2() -> o2(). + +o2() -> a. + +%% The derived spec is +%% -spec adt_t1('a' | 'b') -> simple1_adt:o1('a') | simple1_adt:o2('a'). +%% but that is not tested... + +adt_t1(a) -> + simple1_adt:o1(); +adt_t1(b) -> + simple1_adt:o2(). + +%%% Disjunct opaque types + +-opaque d1() :: a | b | c. + +-opaque d2() :: d | e | f. + +%% -spec t2('a' | 'b') -> simple1_api:d1('a') | simple1_api:d2('d'). + +t2(a) -> + d1(); +t2(b) -> + d2(). + +-spec d1() -> d1(). + +d1() -> a. + +-spec d2() -> d2(). + +d2() -> d. + +%% -spec adt_t2('a' | 'b') -> simple1_adt:d1('a') | simple1_adt:d2('d'). + +adt_t2(a) -> + simple1_adt:d1(); +adt_t2(b) -> + simple1_adt:d2(). + +-spec tup() -> simple1_adt:tuple1(). % invalid type spec + +tup() -> + {a, b}. + +%%% Matching equal opaque types with different names + +t3() -> + A = n1(), + B = n2(), + A = A, % OK, of course + A = B. % OK since o1() and o2() are local opaque types + +t4() -> + A = n1(), + B = n2(), + true = A =:= A, % OK, of course + A =:= B. % OK since o1() and o2() are local opaque types + +t5() -> + A = d1(), + B = d2(), + A =:= B. % can never evaluate to true + +t6() -> + A = d1(), + B = d2(), + A = B. % can never succeed + +t7() -> + A = d1(), + B = d2(), + A =/= B. % OK (always true?) + +t8() -> + A = d1(), + B = d2(), + A /= B. % OK (always true?) + +-spec n1() -> o1(). + +n1() -> a. + +-spec n2() -> o2(). + +n2() -> a. + +adt_t3() -> + A = simple1_adt:n1(), + B = simple1_adt:n2(), + true = A =:= A, % OK. + A =:= B. % opaque test, not OK + +adt_t4() -> + A = simple1_adt:n1(), + B = simple1_adt:n2(), + A = A, % OK + A = B. % opaque term + +adt_t7() -> + A = simple1_adt:n1(), + B = simple1_adt:n2(), + false = A =/= A, % OK + A =/= B. % opaque test, not OK + +adt_t8() -> + A = simple1_adt:n1(), + B = simple1_adt:n2(), + false = A /= A, % OK + A /= B. % opaque test, not OK + +adt_t5() -> + A = simple1_adt:c1(), + B = simple1_adt:c2(), + A =:= B. % opaque test, not OK + +%% Comparison in guard + +-spec c1(simple1_adt:d1(), simple1_adt:d2()) -> boolean(). + +c1(A, B) when A =< B -> true. % succ type of A and B is any() (type spec is OK) + +-spec c2(simple1_adt:d1(), simple1_adt:d2()) -> boolean(). + +c2(A, B) -> + if A =< B -> true end. % succ type of A and B is any() (type spec is OK) + +c2() -> + A = simple1_adt:d1(), + B = simple1_adt:d2(), + if A =< B -> ok end. % opaque term + +c3() -> + B = simple1_adt:d2(), + if a =< B -> ok end. % opaque term + +c4() -> + A = simple1_adt:d1(), + if A =< d -> ok end. % opaque term + +tt1() -> + A = o1(), + is_integer(A). % OK + +tt2() -> + A = simple1_adt:d1(), + is_integer(A). % breaks the opaqueness + +%% Comparison with integers + +-opaque i1() :: 1 | 2. + +-opaque i2() :: 1 | 2. + +-opaque di1() :: 1 | 2. + +-opaque di2() :: 3 | 4. + +-spec i1() -> i1(). + +i1() -> 1. + +-type ty_i1() :: 1 | 2. + +-spec ty_i1() -> ty_i1(). + +ty_i1() -> 1. + +cmp1() -> + A = i1(), + if A > 3 -> ok end. % can never succeed + +cmp2() -> + A = simple1_adt:i1(), + if A > 3 -> ok end. % opaque term + +cmp3() -> + A = i1(), + if A < 3 -> ok end. + +cmp4() -> + A = simple1_adt:i1(), + if A < 3 -> ok end. % opaque term + +%% -type + +ty_cmp1() -> + A = ty_i1(), + if A > 3 -> ok end. % can never succeed + +ty_cmp2() -> + A = simple1_adt:ty_i1(), + if A > 3 -> ok end. % can never succeed + +ty_cmp3() -> + A = ty_i1(), + if A < 3 -> ok end. + +ty_cmp4() -> + A = simple1_adt:ty_i1(), + if A < 3 -> ok end. + +%% is_function + +f1() -> + T = n1(), + if is_function(T) -> ok end. % can never succeed + +f2() -> + T = n1(), + is_function(T). % ok + +adt_f1() -> + T = simple1_adt:n1(), + if is_function(T) -> ok end. % breaks the opaqueness + +adt_f2() -> + T = simple1_adt:n1(), + is_function(T). % breaks the opaqueness + +f3() -> + A = i1(), + T = n1(), + if is_function(T, A) -> ok end. % can never succeed + +f4() -> + A = i1(), + T = n1(), + is_function(T, A). % ok + +adt_f3() -> + A = simple1_adt:i1(), + T = simple1_adt:n1(), + if is_function(T, A) -> ok end. % breaks the opaqueness + +adt_f4() -> + A = simple1_adt:i1(), + T = simple1_adt:n1(), + is_function(T, A). % breaks the opaqueness + +adt_f4_a() -> + A = simple1_adt:i1(), + T = n1(), + is_function(T, A). % opaque term + + +adt_f4_b() -> + A = i1(), + T = simple1_adt:n1(), + is_function(T, A). % breaks the opaqueness + +%% A few Boolean examples + +bool_t1() -> + B = b2(), + if B -> ok end. % B =:= true can never succeed + +bool_t2() -> + A = b1(), + B = b2(), + if A and not B -> ok end. + +bool_t3() -> + A = b1(), + if not A -> ok end. % can never succeed + +bool_t4() -> + A = n1(), + if not ((A >= 1) and not (A < 1)) -> ok end. % can never succeed + +-spec bool_t5(i1()) -> integer(). + +bool_t5(A) -> + if [not (A > 1)] =:= + [false]-> 1 end. + +-spec bool_t6(b1()) -> integer(). + +bool_t6(A) -> + if [not A] =:= + [false]-> 1 end. + +-spec bool_t7() -> integer(). + +bool_t7() -> + A = i1(), + if [not A] =:= % cannot succeed + [false]-> 1 end. + +bool_adt_t1() -> + B = simple1_adt:b2(), + if B -> ok end. % opaque term + +bool_adt_t2() -> + A = simple1_adt:b1(), + B = simple1_adt:b2(), + if A and not B -> ok end. % opaque term + +-spec bool_adt_t5(simple1_adt:i1()) -> integer(). + +bool_adt_t5(A) -> + if [not (A > 1)] =:= % succ type of A is any() (type spec is OK) + [false]-> 1 end. + +-spec bool_adt_t6(simple1_adt:b1()) -> integer(). % invalid type spec + +bool_adt_t6(A) -> + if [not A] =:= % succ type of A is 'true' + [false]-> 1 end. + +-spec bool_t8() -> integer(). + +bool_t8() -> + A = i1(), + if [A and A] =:= % cannot succeed + [false]-> 1 end. + +-spec bool_adt_t8(simple1_adt:b1(), simple1_adt:b2()) -> integer(). % invalid + +bool_adt_t8(A, B) -> + if [A and B] =:= + [false]-> 1 end. + +-spec bool_t9() -> integer(). + +bool_t9() -> + A = i1(), + if [A or A] =:= % cannot succeed + [false]-> 1 end. + +-spec bool_adt_t9(simple1_adt:b1(), simple1_adt:b2()) -> integer(). % invalid + +bool_adt_t9(A, B) -> + if [A or B] =:= + [false]-> 1 end. + +-opaque b1() :: boolean(). + +-opaque b2() :: boolean(). + +-spec b1() -> b1(). + +b1() -> true. + +-spec b2() -> b2(). + +b2() -> false. + +%% Few (very few...) examples with bit syntax + +bit_t1() -> + A = i1(), + <<100:(A)>>. + +bit_adt_t1() -> + A = simple1_adt:i1(), + <<100:(A)>>. % breaks the opaqueness + +bit_t3(A) -> + B = i1(), + case none:none() of + <<A:B>> -> 1 + end. + +bit_adt_t2() -> + A = simple1_adt:i1(), + case <<"hej">> of + <<_:A>> -> ok % breaks the opaqueness (but the message is strange) + end. + + +bit_adt_t3(A) -> + B = simple1_adt:i1(), + case none:none() of + <<A: % breaks the opaqueness (the message is less than perfect) + B>> -> 1 + end. + +bit_t5(A) -> + B = o1(), + case none:none() of + <<A:B>> -> 1 % breaks the opaqueness + end. + +-spec bit_t4(<<_:1>>) -> integer(). + +bit_t4(A) -> + Sz = i1(), + case A of + <<_:Sz>> -> 1 + end. + +-spec bit_adt_t4(<<_:1>>) -> integer(). + +bit_adt_t4(A) -> + Sz = simple1_adt:i1(), + case A of + <<_:Sz>> -> 1 % breaks the opaqueness + end. + +bit_t5() -> + A = bit1(), + case A of + <<_/binary>> -> 1 + end. + +bit_adt_t5() -> + A = simple1_adt:bit1(), + case A of + <<_/binary>> -> 1 % breaks the opaqueness + end. + +-opaque bit1() :: binary(). + +-spec bit1() -> bit1(). + +bit1() -> + <<"hej">>. + +%% Calls with variable module or function + +call_f(A) -> + A = a(), + foo:A(A). + +call_f_adt(A) -> + A = simple1_adt:a(), + foo:A(A). % breaks the opaqueness + +call_m(A) -> + A = a(), + A:foo(A). + +call_m_adt(A) -> + A = simple1_adt:a(), + A:foo(A). % breaks the opaqueness + +-opaque a() :: atom(). + +-opaque i() :: integer(). + +-spec a() -> a(). + +a() -> + e. + +call_f_i(A) -> + A = i(), + foo:A(A). % A is not atom() but i() + +call_f_adt_i(A) -> + A = simple1_adt:i(), + foo:A(A). % A is not atom() but simple1_adt:i() + +call_m_i(A) -> + A = i(), + A:foo(A). % A is not atom() but i() + +call_m_adt_i(A) -> + A = simple1_adt:i(), + A:foo(A). % A is not atom() but simple1_adt:i() + +-spec eq1() -> integer(). + +eq1() -> + A = simple1_adt:d2(), + B = simple1_adt:d1(), + if + A == B -> % opaque term + 0; + A == A -> + 1; + A =:= A -> % compiler finds this one cannot match + 2; + true -> % compiler finds this one cannot match + 3 + end. + +eq2() -> + A = simple1_adt:d1(), + if + {A} >= {A} -> + 1; + A >= 3 -> % opaque term + 2; + A == 3 -> % opaque term + 3; + A =:= 3 -> % opaque term + 4; + A == A -> + 5; + A =:= A -> % compiler finds this one cannot match + 6 + end. + +c5() -> + A = simple1_adt:d1(), + A < 3. % opaque term + +c6(A, B) -> + A = simple1_adt:d1(), + B = simple1_adt:d1(), + A =< B. % same type - no warning + +c7(A, B) -> + A = simple1_adt:d1(), + B = simple1_adt:d2(), + A =< B. % opaque term + +c8() -> + D = digraph:new(), + E = ets:new(foo, []), + if {D, a} > {D, E} -> true; % OK + {1.0, 2} > {{D}, {E}} -> true; % OK + {D, 3} > {D, E} -> true % opaque term 2 + end. + +-spec i() -> i(). + +i() -> + 1. diff --git a/lib/dialyzer/test/opaque_SUITE_data/src/simple/simple2_api.erl b/lib/dialyzer/test/opaque_SUITE_data/src/simple/simple2_api.erl new file mode 100644 index 0000000000..c86f6fd0b5 --- /dev/null +++ b/lib/dialyzer/test/opaque_SUITE_data/src/simple/simple2_api.erl @@ -0,0 +1,125 @@ +-module(simple2_api). + +-export([c1/2, c2/0, c3/0, c4/1, c5/1, c6/0, c6_b/0, c7/0, c7_b/0, + c7_c/0, c8/0, c9/0, c10/0, c11/0, c12/0, c13/0, c14/0, c15/0, + c16/0, c17/0, c18/0, c19/0, c20/0, c21/0, c22/0, c23/0, + c24/0, c25/0, c26/0]). + +-spec c1(simple1_adt:d1(), simple1_adt:d2()) -> boolean(). + +c1(A, B) -> + {A} =< {B}. % succ type of A and B is any() + +c2() -> + A = simple1_adt:d1(), + erlang:make_tuple(1, A). % ok + +c3() -> + A = simple1_adt:d1(), + setelement(1, {A}, A). % ok + +c4(_) -> + A = simple1_adt:d1(), + halt(A). % ok (BIF fails...) + +c5(_) -> + A = simple1_adt:d1(), + [A] -- [A]. % ok + +c6() -> + A = simple1_adt:d1(), + A ! foo. % opaque term + +c6_b() -> + A = simple1_adt:d1(), + erlang:send(A, foo). % opaque term + +c7() -> + A = simple1_adt:d1(), + foo ! A. % ok + +c7_b() -> + A = simple1_adt:d1(), + erlang:send(foo, A). % ok + +c7_c() -> + A = simple1_adt:d1(), + erlang:send(foo, A, []). % ok + +c8() -> + A = simple1_adt:d1(), + A < 3. % opaque term + +c9() -> + A = simple1_adt:d1(), + lists:keysearch(A, 1, []). % ok + +c10() -> + A = simple1_adt:d1(), + lists:keysearch(1, A, []). % opaque term 2 + +c11() -> + A = simple1_adt:tuple(), + lists:keysearch(key, 1, [A]). % ok + +c12() -> + A = simple1_adt:tuple(), + lists:keysearch(key, 1, A). % opaque term 3 + +c13() -> + A = simple1_adt:tuple(), + lists:keysearch(key, 1, [{A,2}]). % ok + +c14() -> + A = simple1_adt:tuple(), + lists:keysearch(key, 1, [{2,A}]). % ok + +c15() -> + A = simple1_adt:d1(), + lists:keysearch(key, 1, [A]). % ok + +c16() -> + A = simple1_adt:tuple(), + erlang:send(foo, A). % ok + +c17() -> + A = simple1_adt:tuple(), + lists:reverse([A]). % ok + +c18() -> + A = simple1_adt:tuple(), + lists:keyreplace(a, 1, [A], {1,2}). % ok + +c19() -> + A = simple1_adt:tuple(), + %% Problem. The spec says argument 4 is a tuple(). Fix that! + lists:keyreplace(a, 1, [{1,2}], A). % opaque term 4 + +c20() -> + A = simple1_adt:tuple(), + lists:flatten(A). % opaque term 1 + +c21() -> + A = simple1_adt:tuple(), + lists:flatten([[{A}]]). % ok + +c22() -> + A = simple1_adt:tuple(), + lists:flatten([[A]]). % ok + +c23() -> + A = simple1_adt:tuple(), + lists:flatten([A]). % ok + +c24() -> + A = simple1_adt:tuple(), + lists:flatten({A}). % will never return + +c25() -> + A = simple1_adt:d1(), + B = simple1_adt:tuple(), + if {A,3} > {A,B} -> true end. % opaque 2nd argument + +c26() -> + B = simple1_adt:tuple(), + tuple_to_list(B). % opaque term 1 diff --git a/lib/dialyzer/test/opaque_SUITE_data/src/union/union_adt.erl b/lib/dialyzer/test/opaque_SUITE_data/src/union/union_adt.erl index 5ca3202bba..d88f238190 100644 --- a/lib/dialyzer/test/opaque_SUITE_data/src/union/union_adt.erl +++ b/lib/dialyzer/test/opaque_SUITE_data/src/union/union_adt.erl @@ -1,10 +1,15 @@ -module(union_adt). -export([new/1, new_a/1, new_rec/1]). +%% Now (R17) that opaque types are no longer recognized by their shape +%% this test case is rather meaningless. + -record(rec, {x = 42 :: integer()}). -opaque u() :: 'aaa' | 'bbb' | #rec{}. +-spec new(_) -> u(). + new(a) -> aaa; new(b) -> bbb; new(X) when is_integer(X) -> @@ -13,7 +18,11 @@ new(X) when is_integer(X) -> %% the following two functions (and their uses in union_use.erl) test %% that the return type is the opaque one and not just a subtype of it +-spec new_a(_) -> u(). + new_a(a) -> aaa. +-spec new_rec(_) -> u(). + new_rec(X) when is_integer(X) -> #rec{x = X}. diff --git a/lib/dialyzer/test/opaque_SUITE_data/src/zoltan_adt.erl b/lib/dialyzer/test/opaque_SUITE_data/src/zoltan_adt.erl new file mode 100644 index 0000000000..c742990c6a --- /dev/null +++ b/lib/dialyzer/test/opaque_SUITE_data/src/zoltan_adt.erl @@ -0,0 +1,5 @@ +-module(zoltan_adt). + +-export_type([id/0]). + +-opaque id() :: string(). diff --git a/lib/dialyzer/test/opaque_SUITE_data/src/zoltan_kis3.erl b/lib/dialyzer/test/opaque_SUITE_data/src/zoltan_kis3.erl index b62b9de576..07c9f0a270 100644 --- a/lib/dialyzer/test/opaque_SUITE_data/src/zoltan_kis3.erl +++ b/lib/dialyzer/test/opaque_SUITE_data/src/zoltan_kis3.erl @@ -2,13 +2,13 @@ -export([f/0, gen/0]). --opaque id() :: string(). +%-opaque id() :: string(). -spec f() -> char(). %% List pattern matching issue f() -> [H|_T] = gen(), H. --spec gen() -> id(). +-spec gen() -> zoltan_adt:id(). gen() -> "Dummy". |