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-- This source is licensed under the Sunset License v1.0
with Packrat.Errors;
package body Rat_Tests.Errors is
package PE renames Packrat.Errors;
function Valid_Message_Check
return Test_Result is
begin
if PE.Valid_Message ("abcde") or PE.Valid_Message ("sSYM") or
PE.Valid_Message ("sSYMp") or PE.Valid_Message ("p345") or
PE.Valid_Message ("pOne") or PE.Valid_Message ("sSYMp1sNEXT") or
PE.Valid_Message ("sSYMp1.2") or PE.Valid_Message ("sABcDp12") or
not PE.Valid_Message ("sSYMp0") or not PE.Valid_Message ("sAp12") or
not PE.Valid_Message ("sNAMEp34sSYMp02") or not PE.Valid_Message ("") or
not PE.Valid_Message ("sA_Bp3") or not PE.Valid_Message ("sAp1sAp1")
then
return Fail;
end if;
return Pass;
end Valid_Message_Check;
function Valid_Identifier_Check
return Test_Result
is
Pass_Array : PE.Error_Info_Array :=
((+"A", 1), (+"ABC", 2), (+"AB_CD", 3), (+"A_B_CD", 4));
Fail_Array : PE.Error_Info_Array :=
((+"_", 1), (+"_A", 2), (+"A_", 3), (+"A__B", 4), (+"A%B", 3));
begin
for EI of Pass_Array loop
if not PE.Valid_Identifier (EI.Symbol) or
not PE.Valid_Identifier (-EI.Symbol)
then
return Fail;
end if;
end loop;
for EI of Fail_Array loop
if PE.Valid_Identifier (EI.Symbol) or
PE.Valid_Identifier (-EI.Symbol)
then
return Fail;
end if;
end loop;
if not PE.Valid_Identifier_Array (Pass_Array) or
PE.Valid_Identifier_Array (Fail_Array)
then
return Fail;
end if;
return Pass;
end Valid_Identifier_Check;
function Join_Check
return Test_Result
is
Array_1 : PE.Error_Info_Array := ((+"A", 1), (+"B", 2));
Msg_1 : PE.Error_Message := PE.Encode_Array (Array_1);
Array_2 : PE.Error_Info_Array := ((+"C", 3), (+"D", 4));
Msg_2 : PE.Error_Message := PE.Encode_Array (Array_2);
Msg_3 : PE.Error_Message := PE.Join (Msg_1, Msg_2);
Array_4 : PE.Error_Info_Array := ((+"A", 1), (+"B", 2), (+"C", 3), (+"D", 4));
Msg_4 : PE.Error_Message := PE.Encode_Array (Array_4);
Array_5 : PE.Error_Info_Array := ((+"A", 1), (+"B", 4));
Msg_5 : PE.Error_Message := PE.Encode_Array (Array_5);
Array_6 : PE.Error_Info_Array := ((+"A", 1), (+"C", 3));
Msg_6 : PE.Error_Message := PE.Encode_Array (Array_6);
Msg_7 : PE.Error_Message := PE.Join (Msg_5, Msg_6);
Array_8 : PE.Error_Info_Array := ((+"A", 1), (+"B", 4), (+"C", 3));
Msg_8 : PE.Error_Message := PE.Encode_Array (Array_8);
begin
if Msg_3 /= Msg_4 or Msg_7 /= Msg_8 then
return Fail;
end if;
return Pass;
end Join_Check;
function Encode_1_Check
return Test_Result is
begin
-- Encode with a String and a Natural
if PE.Encode ("ABC", 15) /= "sABCp15" then
return Fail;
end if;
return Pass;
end Encode_1_Check;
function Encode_2_Check
return Test_Result is
begin
-- Encode with an Unbounded_String and a Natural
if PE.Encode (+"ABC", 15) /= "sABCp15" then
return Fail;
end if;
return Pass;
end Encode_2_Check;
function Encode_3_Check
return Test_Result is
begin
-- Encode with an Error_Info
if PE.Encode ((+"ABC", 15)) /= "sABCp15" then
return Fail;
end if;
return Pass;
end Encode_3_Check;
function Encode_4_Check
return Test_Result is
begin
-- Encode with an Error_Info_Array
if PE.Encode_Array (((+"A", 3), (+"BC", 2), (+"ABC", 1), (+"B", 4))) /=
"sAp3sBCp2sABCp1sBp4"
then
return Fail;
end if;
return Pass;
end Encode_4_Check;
function Decode_Check
return Test_Result
is
use type PE.Error_Info_Array;
begin
if PE.Decode ("sAp1sBp3sCp10sDEFp456") /=
((+"A", 1), (+"B", 3), (+"C", 10), (+"DEF", 456))
then
return Fail;
end if;
return Pass;
end Decode_Check;
end Rat_Tests.Errors;
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