140 lines
4.0 KiB
Ada
140 lines
4.0 KiB
Ada
with H3.Arrays;
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with H3.Strings;
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with H3.CC;
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with Ada.Text_IO;
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with Ada.Wide_Text_IO;
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with Ada.Assertions;
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with Interfaces.C;
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--with Interfaces.C.Strings;
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with System;
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use type H3.System_Size;
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procedure hello2 is
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package A is new H3.Arrays(Standard.Wide_Character, 1, Wide_Character'Val(0));
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package S is new H3.Strings(Standard.Wide_Character, Wide_Character'Val(0));
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package CC is new H3.CC(Standard.Wide_Character);
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package C renames Interfaces.C;
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--package S_I is new H3.Arrays(Integer, 1, 16#FF#);
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Arr: A.Elastic_Array;
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Arr2: A.Elastic_Array;
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Str: S.Elastic_String;
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Str2: S.Elastic_String;
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use type S.Elastic_String;
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--procedure setlocale(a: C.int; b: Interfaces.C.Strings.chars_ptr);
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procedure setlocale(a: C.int; b: System.Address);
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pragma Import (C, setlocale, "setlocale");
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function is_class (V: Standard.Wide_Character; Cls: CC.Class) return Standard.Boolean is
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function iswalpha(a: C.int) return C.int;
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pragma Import (C, iswalpha, "iswalpha");
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function iswalnum(a: C.int) return C.int;
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pragma Import (C, iswalnum, "iswalnum");
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function iswblank(a: C.int) return C.int;
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pragma Import (C, iswblank, "iswblank");
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function iswcntrl(a: C.int) return C.int;
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pragma Import (C, iswcntrl, "iswcntrl");
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function iswdigit(a: C.int) return C.int;
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pragma Import (C, iswdigit, "iswdigit");
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function iswgraph(a: C.int) return C.int;
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pragma Import (C, iswgraph, "iswgraph");
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function iswlower(a: C.int) return C.int;
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pragma Import (C, iswlower, "iswlower");
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function iswprint(a: C.int) return C.int;
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pragma Import (C, iswprint, "iswprint");
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function iswpunct(a: C.int) return C.int;
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pragma Import (C, iswpunct, "iswpunct");
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function iswspace(a: C.int) return C.int;
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pragma Import (C, iswspace, "iswspace");
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function iswupper(a: C.int) return C.int;
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pragma Import (C, iswupper, "iswupper");
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function iswxdigit(a: C.int) return C.int;
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pragma Import (C, iswxdigit, "iswxdigit");
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use type C.int;
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X: C.int := Standard.Wide_Character'Pos(V);
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begin
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case Cls is
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when CC.ALPHA => return IswAlpha(X) /= 0;
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when CC.ALNUM => return IswAlnum(X) /= 0;
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when CC.BLANK => return IswBlank(X) /= 0;
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when CC.CNTRL => return IswCntrl(X) /= 0;
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when CC.DIGIT => return IswDigit(X) /= 0;
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when CC.GRAPH => return IswGraph(X) /= 0;
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when CC.LOWER => return IswLower(X) /= 0;
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when CC.PRINT => return IswPrint(X) /= 0;
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when CC.PUNCT => return IswPunct(X) /= 0;
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when CC.SPACE => return IswSpace(X) /= 0;
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when CC.UPPER => return IswUpper(X) /= 0;
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when CC.XDIGIT => return IswXdigit(X) /= 0;
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end case;
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end is_class;
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Empty_String: aliased Standard.String := "";
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begin
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--setlocale (6, Interfaces.C.Strings.To_Chars_Ptr(Empty_String'access));
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setlocale (6, Empty_String'Address);
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A.Append (Arr, "hello");
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A.Append (Arr, "world");
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Arr.Append ("fantastic");
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Arr2 := Arr;
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A.Delete (Arr2, 1, 5);
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Str.Append ("wonderful");
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Str.Delete (2, 3);
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Str2 := Str;
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Str2.Clear;
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Str2.Append ("saxage");
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Str := Str2;
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Str.Clear;
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Str.Append("primitive");
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if Str = "savage" then
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ada.text_io.put_line ("is savage");
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else
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ada.text_io.put_line ("is not savage");
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end if;
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Ada.Wide_Text_IO.Put_Line (Standard.Wide_String(A.To_Item_Array(Arr)));
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Ada.Wide_Text_IO.Put_Line (Standard.Wide_String(A.To_Item_Array(Arr2)));
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-- ---------------------
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Ada.Wide_Text_IO.Put_Line (Standard.Wide_String(Str.To_Item_Array));
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Ada.Wide_Text_IO.Put_Line (Standard.Wide_String(Str2.To_Item_Array));
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declare
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--function isspace(a: Standard.Character) return C.int
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-- with Import => True, Convention => C, External_Name => "isspace";
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ch: Standard.Wide_Character;
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begin
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for i in 0 .. 10000 loop
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ch := Standard.Wide_Character'Val(i);
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Ada.Text_IO.Put (I'img & "[" & ch'Img & "]");
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for j in CC.Class'Range loop
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Ada.Text_IO.Put (" " & J'Img & ":" & CC.Is_Class(ch, j)'Img);
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if CC.Is_Class(ch, j) /= Is_Class(ch, j) then
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Ada.Text_IO.Put ("[X]");
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--else
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-- Ada.Text_IO.Put ("[O]");
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end if;
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end loop;
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Ada.Text_IO.Put_Line ("");
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end loop;
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Ada.Text_IO.Put_line (CC.Is_Alpha('σ')'Img);
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end;
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end;
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