653 lines
18 KiB
Ada
653 lines
18 KiB
Ada
with H3.Utf8;
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package body H3.Compilers is
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type Char_Array is array(System_Index range<>) of Standard.Character;
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package Utf8 is new H3.Utf8(Standard.Character, S.Rune, Char_Array, S.Rune_Array);
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LB_EOF: constant S.Rune_Array := (R.V.Left_Arrow,R.V.UC_E,R.V.UC_O,R.V.UC_F,R.V.Right_Arrow); -- <EOF>
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LB_EOL: constant S.Rune_Array := (R.V.Left_Arrow,R.V.UC_E,R.V.UC_O,R.V.UC_L,R.V.Right_Arrow); -- <EOL>
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LB_XINCLUDE: constant S.Rune_Array := (R.V.Number_Sign,R.V.LC_I,R.V.LC_N,R.V.LC_C,R.V.LC_L,R.V.LC_U,R.V.LC_D,R.V.LC_E); -- #include
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LB_CLASS: constant S.Rune_Array := (R.V.LC_C,R.V.LC_L,R.V.LC_A,R.V.LC_S,R.V.LC_S); -- class
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LB_FUN: constant S.Rune_Array := (R.V.LC_F,R.V.LC_U,R.V.LC_N); -- fun
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LB_END: constant S.Rune_Array := (R.V.LC_E,R.V.LC_N,R.V.LC_D); -- end
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LB_IF: constant S.Rune_Array := (R.V.LC_I,R.V.LC_F); -- if
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LB_ELIF: constant S.Rune_Array := (R.V.LC_E,R.V.LC_L,R.V.LC_I,R.V.LC_F); -- elif
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LB_ELSE: constant S.Rune_Array := (R.V.LC_E,R.V.LC_L,R.V.LC_S,R.V.LC_E); -- else
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LB_WHILE: constant S.Rune_Array := (R.V.LC_W,R.V.LC_H,R.V.LC_I,R.V.LC_L,R.V.LC_E); -- while
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LB_BREAK: constant S.Rune_Array := (R.V.LC_B,R.V.LC_R,R.V.LC_E,R.V.LC_A,R.V.LC_K); -- break
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LB_CONTINUE: constant S.Rune_Array := (R.V.LC_C,R.V.LC_O,R.V.LC_N,R.V.LC_T,R.V.LC_I,R.V.LC_N,R.V.LC_U,R.V.LC_E); -- continue
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LB_TRY: constant S.Rune_Array := (R.V.LC_T,R.V.LC_R,R.V.LC_Y); -- try
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LB_CATCH: constant S.Rune_Array := (R.V.LC_C,R.V.LC_A,R.V.LC_T,R.V.LC_T,R.V.LC_H); -- catch
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LB_RAISE: constant S.Rune_Array := (R.V.LC_R,R.V.LC_A,R.V.LC_I,R.V.LC_S,R.V.LC_E); -- raise
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procedure Dump_Token (Tk: in Token) is
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begin
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Ada.Text_IO.Put (Tk.Id'Img);
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Ada.Text_IO.Put (": ");
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Ada.Text_IO.Put_Line (Standard.String(Utf8.From_Unicode_String(Tk.Buf.To_Rune_Array)));
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end Dump_Token;
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procedure Dump_Rune (Code: in R.Code) is
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begin
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if R.Is_Eof(Code) then
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Ada.Text_IO.Put_Line ("EOF");
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else
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Ada.Text_IO.Put_Line (R.To_Rune(Code)'Img);
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end if;
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end Dump_Rune;
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-- -------------------------------------------------------------------
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procedure Start_Token (C: in out Compiler) is
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begin
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C.Tk.Id := TK_EOF; -- indicate the token id is not set yet
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-- TODO: store token location.
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S.Clear (C.Tk.Buf);
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end Start_Token;
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procedure Start_Token (C: in out Compiler; Ch: in R.Rune) is
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begin
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Start_Token (C);
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S.Append (C.Tk.Buf, Ch);
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end Start_Token;
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procedure Start_Token (C: in out Compiler; Code: in R.Code) is
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begin
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Start_Token (C, R.To_Rune(Code));
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end Start_Token;
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procedure Start_Token (C: in out Compiler; Str: in S.Rune_Array) is
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begin
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Start_Token (C);
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S.Append (C.Tk.Buf, Str);
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end Start_Token;
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procedure Feed_Token (C: in out Compiler; Ch: in R.Rune) is
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begin
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S.Append (C.Tk.Buf, Ch);
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end Feed_Token;
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procedure Feed_Token (C: in out Compiler; Code: in R.Code) is
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begin
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Feed_Token(C, R.To_Rune(Code));
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end Feed_Token;
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procedure Set_Lexer_State (C: in out Compiler; State: in Lexer_State) is
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begin
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C.Lx.State := State;
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Start_Token (C); -- empty the token buffer
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end Set_Lexer_State;
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procedure Switch_Lexer_State (C: in out Compiler; State: in Lexer_State) is
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begin
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C.Lx.State := State;
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-- don't reset the token buffer;
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end Switch_Lexer_State;
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procedure Set_Lexer_State (C: in out Compiler; State: in Lexer_State; Ch: in R.Rune) is
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begin
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-- change the lexer state while storing the first character in the token buffer.
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C.Lx.State := State;
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Start_Token (C, Ch);
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end Set_Lexer_State;
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procedure Set_Lexer_State (C: in out Compiler; State: in Lexer_State; Code: in R.Code) is
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begin
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Set_Lexer_State (C, State, R.To_Rune(Code));
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end Set_Lexer_State;
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procedure Got_Token (C: in out Compiler); -- defined further down
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procedure End_Token (C: in out Compiler; Id: in Token_Id) is
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begin
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C.Tk.Id := Id;
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Got_Token (C);
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Set_Lexer_State (C, LX_START);
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end End_Token;
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procedure End_Token (C: in out Compiler; Id: in Token_Id; Ch: in R.Rune) is
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begin
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S.Append (C.Tk.Buf, Ch);
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C.Tk.Id := Id;
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Got_Token (C);
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Set_Lexer_State (C, LX_START);
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end End_Token;
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procedure End_Token (C: in out Compiler; Id: in Token_Id; Code: in R.Code) is
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begin
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End_Token (C, Id, R.To_Rune(Code));
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end End_Token;
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-- -------------------------------------------------------------------
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procedure Set_Parse_State (C: in out Compiler; Code: in Parse_State_Code) is
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begin
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C.Prs.States(C.Prs.Top).Current := Code;
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end Set_Parse_State;
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procedure Push_Parse_State (C: in out Compiler; Code: in Parse_State_Code) is
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Top: System_Index;
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begin
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if C.Prs.Top = C.Prs.States'Last then
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raise Syntax_Error with "parse state stack exhausted";
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end if;
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Top := C.Prs.Top + 1;
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declare
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S: Parse_State renames C.Prs.States(Top);
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begin
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S.Current := Code;
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end;
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C.Prs.Top := Top;
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--ada.text_io.put_line ("Push_Parse_State " & Code'Img);
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end Push_Parse_State;
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procedure Pop_Parse_State (C: in out Compiler) is
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begin
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--ada.text_io.put_line ("Pop_Parse_State " & C.Prs.States(C.Prs.Top).Current'Img);
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C.Prs.Top := C.Prs.Top - 1;
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end Pop_Parse_State;
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-- -------------------------------------------------------------------
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procedure Push_Inclusion (C: in out Compiler; Name: in S.Rune_Array) is
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Top: System_Index;
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begin
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if C.Inc.Top = C.Inc.Streams'Last then
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raise Syntax_Error with "inclusion depth too deep";
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end if;
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Top := C.Inc.Top + 1;
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declare
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S: Stream renames C.Inc.Streams(Top);
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begin
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Ada.Text_IO.Open (S.Handle, Ada.Text_IO.In_File, Standard.String(Utf8.From_Unicode_String(Name)));
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S.Prs_Level := C.Prs.Top; -- this is the parse state level of this include directive.
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end;
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C.Inc.Top := Top;
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-- Switch the parse state to handle the terminator
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-- after the new pushed state has been popped out.
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Set_Parse_State (C, PS_INCLUDE_TERMINATOR);
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-- Let the inner content be handled at the state as the include directive is seen.
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Push_Parse_State (C, C.Prs.States(C.Prs.Top - 1).Current);
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end Push_Inclusion;
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procedure Pop_Inclusion (C: in out Compiler; Check: in Boolean) is
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begin
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Ada.Text_IO.Close (C.Inc.Streams(C.Inc.Top).Handle);
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if Check then
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if C.Prs.Top /= C.Inc.Streams(C.Inc.Top).Prs_Level + 1 then
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ada.text_io.put_line (">>>>>>>>>>> UNBALANCED INCLUSION CONTEXT..." & C.Prs.Top'Img & " " & C.Inc.Streams(C.Inc.Top).Prs_Level'Img);
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raise Syntax_Error with "unbalanced inclusion content";
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end if;
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end if;
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C.Inc.Top := C.Inc.Top - 1;
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Pop_Parse_State (C);
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end Pop_Inclusion;
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-- -------------------------------------------------------------------
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procedure Parse_Ident (C: in out Compiler) is
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begin
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if C.Tk.Buf.Equals(LB_CLASS) then
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Push_Parse_State (C, PS_CLASS_1);
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elsif C.Tk.Buf.Equals(LB_FUN) then
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Push_Parse_State (C, PS_FUN_1);
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else
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-- probably a command name or a variable name?
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Push_Parse_State (C, PS_PLAIN_STATEMENT_START);
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C.Prs.States(C.Prs.Top).Data := (
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Code => PD_STATEMENT,
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Stmt_Starter => C.Tk.Buf
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);
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end if;
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end Parse_Ident;
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procedure Parse_Class_1 (C: in out Compiler) is
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begin
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null;
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end Parse_Class_1;
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procedure Parse_Class_2 (C: in out Compiler) is
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begin
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null;
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end Parse_Class_2;
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-- -------------------------------------------------------------------
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procedure Parse_Plain_Statement_Start (C: in out Compiler) is
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begin
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case C.Tk.Id is
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when TK_EOL =>
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Pop_Parse_State (C);
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when TK_EOF =>
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Pop_Parse_State (C);
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if C.Inc.Top > 0 then
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Pop_Inclusion (C, True);
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else
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-- end of really the input??
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null;
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end if;
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when TK_CSTR =>
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null;
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when TK_IDENT =>
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null;
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when TK_DOLLARED_LPAREN => -- $(
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Push_Parse_State (C, PS_START);
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when TK_RPAREN =>
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Pop_Parse_State (C); -- pop as if EOL is seen.
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Pop_Parse_State (C); -- pop against TK_DOLLARED_LPAREN
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when TK_SEMICOLON =>
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-- end of the current statement. go on to the next statement
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Set_Parse_State (C, PS_PLAIN_STATEMENT_START);
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when others =>
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raise Syntax_Error with "invalid token in in plain statement";
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end case;
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end Parse_Plain_Statement_Start;
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-- -------------------------------------------------------------------
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procedure Parse_Start (C: in out Compiler) is
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begin
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case C.Tk.Id is
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when TK_BSTR =>
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null;
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when TK_BYTE =>
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null;
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when TK_CHAR =>
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null;
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when TK_CSTR =>
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null;
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when TK_DIRECTIVE =>
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if C.Tk.Buf.Equals(LB_XINCLUDE) then
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--Set_Parse_State (C, PS_INCLUDE_TARGET);
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Push_Parse_State (C, PS_INCLUDE_TARGET);
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else
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raise Syntax_Error with "unknown directive name";
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end if;
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when TK_EOF =>
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if C.Inc.Top > 0 then
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Pop_Inclusion (C, True);
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else
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-- end of really the input??
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null;
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end if;
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when TK_EOL =>
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null;
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when TK_IDENT =>
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Parse_Ident (C);
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--when TK_NUMBER =>
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-- null;
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-- plus or minus signed may be allowed here too.
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-- plusplus or miniusminus may be allowed here too.
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when TK_SEMICOLON =>
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null;
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--when TK_HASHED_LBRACE =>
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-- null;
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--when TK_HASHED_LBRACK =>
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-- null;
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when TK_DOLLARED_LPAREN =>
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Push_Parse_State (C, PS_START);
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when TK_RPAREN =>
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Pop_Parse_State (C);
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when others =>
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raise Syntax_Error with "unexpected token";
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end case;
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end Parse_Start;
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procedure Parse_Include_Target (C: in out Compiler) is
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begin
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if C.Tk.Id = TK_CSTR then
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-- arrange to feed more data from the included file.
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Push_Inclusion (C, S.To_Rune_Array(C.Tk.Buf));
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else
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-- the target is not a string.
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--Dump_Token (C.Tk);
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raise Syntax_Error with "string literal required";
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end if;
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end Parse_Include_Target;
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procedure Parse_Include_Terminator (C: in out Compiler) is
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begin
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if C.Tk.Id /= TK_SEMICOLON then
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raise Syntax_Error with "semicolon required";
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end if;
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Pop_Parse_State (C);
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end Parse_Include_Terminator;
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procedure Got_Token (C: in out Compiler) is
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begin
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Dump_Token (C.Tk);
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case C.Prs.States(C.Prs.Top).Current is
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when PS_START =>
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Parse_Start (C);
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when PS_INCLUDE_TARGET =>
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Parse_Include_Target (C);
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when PS_INCLUDE_TERMINATOR =>
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Parse_Include_Terminator (C);
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when PS_PLAIN_STATEMENT_START =>
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Parse_Plain_Statement_Start (C);
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when others =>
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raise Syntax_Error with "unknown parser state"; -- TODO: change this...
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end case;
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end Got_Token;
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function Is_Ident_Starter(Code: in R.Code) return Boolean is
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begin
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return R.Is_Alnum(Code) or else
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R.Is_Rune(Code, R.V.Underline) or else
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R.Is_Rune(Code, R.V.Minus_Sign);
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end Is_Ident_Starter;
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function Is_Ident_Char(Code: in R.Code) return Boolean is
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begin
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return Is_Ident_Starter(Code); -- or else R.Is_Rune(Code, R.V.Underline); -- or else R.Is_Rune(C, ...);
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end Is_Ident_Char;
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procedure Feed_Char_Code (C: in out Compiler; Code: in R.Code) is
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begin
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<<Start_Over>>
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--Dump_Rune (Code);
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case C.Lx.State is
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when LX_START =>
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if R.Is_Eof(Code) then
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Start_Token (C, LB_EOF);
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End_Token (C, TK_EOF);
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-- this procedure doesn't prevent you from feeding more runes
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-- after EOF. but it's not desirable to feed more after EOF.
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elsif R.Is_Rune(Code, R.V.LF) then -- TODO: support a different EOL scheme
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Start_Token (C, LB_EOL);
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End_Token (C, TK_EOL);
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elsif R.Is_Space(Code) then
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-- ignore. carry on
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null;
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elsif R.Is_Rune(Code, R.V.Number_Sign) then -- #
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Set_Lexer_State (C, LX_HASHED, Code);
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elsif R.Is_Rune(Code, R.V.Dollar_Sign) then -- $
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Set_Lexer_State (C, LX_DOLLARED, Code);
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elsif R.Is_Rune(Code, R.V.Left_Curly_Bracket) then -- {
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Start_Token (C, Code);
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End_Token (C, TK_LBRACE);
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elsif R.Is_Rune(Code, R.V.Right_Curly_Bracket) then -- }
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Start_Token (C, Code);
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End_Token (C, TK_RBRACE);
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elsif R.Is_Rune(Code, R.V.Left_Square_Bracket) then -- [
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Start_Token (C, Code);
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End_Token (C, TK_LBRACK);
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elsif R.Is_Rune(Code, R.V.Right_Square_Bracket) then -- ]
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Start_Token (C, Code);
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End_Token (C, TK_RBRACK);
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elsif R.Is_Rune(Code, R.V.Left_Parenthesis) then -- (
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Start_Token (C, Code);
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End_Token (C, TK_LPAREN);
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elsif R.Is_Rune(Code, R.V.Right_Parenthesis) then -- )
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Start_Token (C, Code);
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End_Token (C, TK_RPAREN);
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elsif R.Is_Rune(Code, R.V.Semicolon) then -- ;
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Start_Token (C, Code);
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End_Token (C, TK_SEMICOLON);
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elsif R.Is_Rune(Code, R.V.Colon) then -- :
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Set_Lexer_State (C, LX_COLON, Code);
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elsif R.Is_Rune(Code, R.V.Quotation) then -- "
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Set_Lexer_State (C, LX_CSTR);
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elsif Is_Ident_Starter(Code) then
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Set_Lexer_State (C, LX_IDENT, Code);
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elsif R.Is_Digit(Code) then
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Set_Lexer_State (C, LX_NUMBER, Code);
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--elsif R.Is_Rune(Code, R.V.Plus_Sign) then -- +
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-- Set_Lexer_State (C, LX_OP_PLUS, Code);
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--elsif R.Is_Rune(Code, R.V.Minus_Sign) then -- -
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-- Set_Lexer_State (C, LX_OP_MINUS, Code);
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--elsif R.Is_Rune(Code, R.V.Asterisk) then -- *
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-- Set_Lexer_State (C, LX_OP_MUL, Code);
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--elsif R.Is_Rune(Code, R.V.Slash) then -- /
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-- Set_Lexer_State (C, LX_OP_DIV, Code);
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--elsif R.Is_Rune(Code, R.V.Left_Arrow) then -- <
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-- Set_Lexer_State (C, LX_OP_LESS, Code);
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--elsif R.Is_Rune(Code, R.V.Right_Arrow) then -- >
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-- Set_Lexer_State (C, LX_OP_GREATER, Code);
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else
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raise Syntax_Error;
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end if;
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when LX_COLON =>
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if R.Is_Rune(Code, R.V.Equal_Sign) then -- :=
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End_Token (C, TK_ASSIGN, Code);
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else
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End_Token (C, TK_COLON);
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goto Start_Over;
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end if;
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when LX_COMMENT =>
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if R.Is_Eof(Code) then
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Set_Lexer_State (C, LX_START);
|
|
goto Start_Over;
|
|
elsif R.Is_Rune(Code, R.V.LF) then -- TODO: support a different EOL scheme
|
|
Start_Token (C, LB_EOL);
|
|
End_Token (C, TK_EOL);
|
|
end if;
|
|
|
|
when LX_CSTR =>
|
|
-- TODO: escaping...
|
|
if R.Is_Rune(Code, R.V.Quotation) then
|
|
End_Token (C, TK_CSTR);
|
|
else
|
|
Feed_Token (C, Code);
|
|
end if;
|
|
|
|
when LX_DIRECTIVE =>
|
|
if R.Is_Alnum(Code) or else R.Is_Rune(Code, R.V.Underline) then
|
|
Feed_Token (C, Code);
|
|
else
|
|
End_Token (C, TK_DIRECTIVE);
|
|
goto Start_Over;
|
|
end if;
|
|
|
|
when LX_DOLLARED =>
|
|
if R.Is_Rune(Code, R.V.Left_Curly_Bracket) then
|
|
End_Token (C, TK_DOLLARED_LBRACE, Code);
|
|
elsif R.Is_Rune(Code, R.V.Left_Square_Bracket) then
|
|
End_Token (C, TK_DOLLARED_LBRACK, Code);
|
|
elsif R.Is_Rune(Code, R.V.Left_Parenthesis) then
|
|
End_Token (C, TK_DOLLARED_LPAREN, Code);
|
|
else
|
|
raise Syntax_Error with "invalid dollared token";
|
|
end if;
|
|
|
|
when LX_HASHED =>
|
|
if R.Is_Alnum(Code) or else R.Is_Rune(Code, R.V.Underline) then
|
|
Feed_Token (C, Code);
|
|
Switch_Lexer_State (C, LX_DIRECTIVE);
|
|
elsif R.Is_Rune(Code, R.V.Number_Sign) or else R.Is_Rune(Code, R.V.Exclamation) then -- ## or #!
|
|
Set_Lexer_State (C, LX_COMMENT);
|
|
elsif R.Is_Rune(Code, R.V.Left_Curly_Bracket) then
|
|
End_Token (C, TK_HASHED_LBRACE, Code);
|
|
elsif R.Is_Rune(Code, R.V.Left_Square_Bracket) then
|
|
End_Token (C, TK_HASHED_LBRACK, Code);
|
|
elsif R.Is_Rune(Code, R.V.Left_Parenthesis) then
|
|
End_Token (C, TK_HASHED_LPAREN, Code);
|
|
else
|
|
raise Syntax_Error with "invalid hashed token";
|
|
end if;
|
|
|
|
when LX_IDENT =>
|
|
if Is_Ident_Char(Code) then
|
|
Feed_Token (C, Code);
|
|
else
|
|
End_Token (C, TK_IDENT);
|
|
goto Start_Over;
|
|
end if;
|
|
|
|
when LX_NUMBER =>
|
|
if R.Is_Digit(Code) then
|
|
Feed_Token (C, Code);
|
|
else
|
|
End_Token (C, TK_IDENT); -- TODO: change this
|
|
goto Start_Over;
|
|
end if;
|
|
|
|
when LX_OP_PLUS =>
|
|
if R.Is_Rune(Code, R.V.Plus_Sign) then
|
|
End_Token (C, TK_PLUSPLUS, Code);
|
|
else
|
|
End_Token (C, TK_PLUS);
|
|
goto Start_Over;
|
|
end if;
|
|
|
|
when LX_OP_MINUS =>
|
|
if R.Is_Rune(Code, R.V.Minus_Sign) then
|
|
End_Token (C, TK_MINUSMINUS, Code);
|
|
else
|
|
End_Token (C, TK_MINUS);
|
|
goto Start_Over;
|
|
end if;
|
|
|
|
when LX_OP_MUL =>
|
|
if R.Is_Rune(Code, R.V.Asterisk) then
|
|
End_Token (C, TK_MULMUL, Code);
|
|
else
|
|
End_Token (C, TK_MUL);
|
|
goto Start_Over;
|
|
end if;
|
|
|
|
when LX_OP_DIV =>
|
|
if R.Is_Rune(Code, R.V.Slash) then
|
|
End_Token (C, TK_DIVDIV, Code);
|
|
else
|
|
End_Token (C, TK_DIV);
|
|
goto Start_Over;
|
|
end if;
|
|
|
|
when LX_OP_GREATER =>
|
|
if R.Is_Rune(Code, R.V.Equal_Sign) then
|
|
End_Token (C, TK_GE, Code);
|
|
else
|
|
End_Token (C, TK_GT);
|
|
goto Start_Over;
|
|
end if;
|
|
|
|
when LX_OP_LESS =>
|
|
if R.Is_Rune(Code, R.V.Equal_sign) then
|
|
End_Token (C, TK_LE, Code);
|
|
else
|
|
End_Token (C, TK_LT);
|
|
goto Start_Over;
|
|
end if;
|
|
|
|
end case;
|
|
end Feed_Char_Code;
|
|
|
|
procedure Feed_Inc (C: in out Compiler) is
|
|
-- Feed the contents of a included stream.
|
|
Entry_Top: constant System_Index := C.Inc.Top;
|
|
Use_Immediate: constant Boolean := True;
|
|
begin
|
|
loop
|
|
while not Ada.Text_IO.End_Of_File(C.Inc.Streams(C.Inc.Top).Handle) loop
|
|
declare
|
|
Ch: Standard.Character;
|
|
begin
|
|
-- Get() skips line terminators. End_Of_Line() checks if it reaches EOL
|
|
-- but can't handle multiple consecutive EOLs. Get_Immediate() doesn't
|
|
-- skip EOLs. As detecting every EOL in the multiple consecutive sequence
|
|
-- is not required, End_Of_Line()+Get() is good too.
|
|
if Use_Immediate then
|
|
Ada.Text_IO.Get_Immediate (C.Inc.Streams(C.Inc.Top).Handle, Ch);
|
|
else
|
|
if Ada.Text_IO.End_Of_Line(C.Inc.Streams(C.Inc.Top).Handle) then
|
|
Feed_Char_Code (C, R.P.LF);
|
|
end if;
|
|
Ada.Text_IO.Get (C.Inc.Streams(C.Inc.Top).Handle, Ch);
|
|
end if;
|
|
|
|
Feed_Char_Code (C, Standard.Character'Pos(Ch));
|
|
end;
|
|
-- After each feed, C.Inc.Top may get incremented if an inclusion
|
|
-- directive is found. so the while loop iterates over the streams
|
|
-- of all inner included levels. End_Feed() below drops C.Inc.Top
|
|
-- and the outer loop will resume the inner while loop at the outer
|
|
-- inclusion level until all entered inclusion levels are exited.
|
|
end loop;
|
|
End_Feed (C);
|
|
|
|
if C.Inc.Top < Entry_Top then
|
|
-- Pop_Inclusion() is called on EOF which is fed by End_Feed().
|
|
-- It also decrements the stack pointer. The current inclusion
|
|
-- stack pointer will get less that First_Top if the first inclusion
|
|
-- level entered is exited.
|
|
exit;
|
|
end if;
|
|
end loop;
|
|
end Feed_Inc;
|
|
|
|
procedure Feed (C: in out Compiler; Data: in S.Rune_Array) is
|
|
begin
|
|
for i in Data'Range loop
|
|
Feed_Char_Code (C, R.To_Code(Data(i)));
|
|
if C.Inc.Top > 0 then
|
|
Feed_Inc (C);
|
|
end if;
|
|
end loop;
|
|
end Feed;
|
|
|
|
procedure End_Feed (C: in out Compiler) is
|
|
begin
|
|
Feed_Char_Code (C, R.P.EOF);
|
|
end End_Feed;
|
|
|
|
|
|
-- -------------------------------------------------------------------
|
|
procedure Initialize (C: in out Compiler) is
|
|
begin
|
|
Push_Parse_State (C, PS_START);
|
|
|
|
declare
|
|
X: H3.Trees.Tree;
|
|
begin
|
|
H3.Trees.New_Node (X);
|
|
end;
|
|
end Initialize;
|
|
|
|
procedure Finalize (C: in out Compiler) is
|
|
begin
|
|
while C.Inc.Top > 0 loop
|
|
Pop_Inclusion (C, False);
|
|
end loop;
|
|
while C.Prs.Top > 0 loop
|
|
Pop_Parse_State (C);
|
|
end loop;
|
|
end Finalize;
|
|
end H3.Compilers;
|