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------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- T R E E _ I O -- -- -- -- B o d y -- -- -- -- Copyright (C) 1992-2009 Free Software Foundation, Inc. -- -- -- -- GNAT is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- -- ware Foundation; either version 3, or (at your option) any later ver- -- -- sion. GNAT is distributed in the hope that it will be useful, but WITH- -- -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY -- -- or FITNESS FOR A PARTICULAR PURPOSE. -- -- -- -- As a special exception under Section 7 of GPL version 3, you are granted -- -- additional permissions described in the GCC Runtime Library Exception, -- -- version 3.1, as published by the Free Software Foundation. -- -- -- -- You should have received a copy of the GNU General Public License and -- -- a copy of the GCC Runtime Library Exception along with this program; -- -- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -- -- <http://www.gnu.org/licenses/>. -- -- -- -- GNAT was originally developed by the GNAT team at New York University. -- -- Extensive contributions were provided by Ada Core Technologies Inc. -- -- -- ------------------------------------------------------------------------------ with Debug; use Debug; with Output; use Output; with Unchecked_Conversion; package body Tree_IO is Debug_Flag_Tree : Boolean := False; -- Debug flag for debug output from tree read/write ------------------------------------------- -- Compression Scheme Used for Tree File -- ------------------------------------------- -- We don't just write the data directly, but instead do a mild form -- of compression, since we expect lots of compressible zeroes and -- blanks. The compression scheme is as follows: -- 00nnnnnn followed by nnnnnn bytes (non compressed data) -- 01nnnnnn indicates nnnnnn binary zero bytes -- 10nnnnnn indicates nnnnnn ASCII space bytes -- 11nnnnnn bbbbbbbb indicates nnnnnnnn occurrences of byte bbbbbbbb -- Since we expect many zeroes in trees, and many spaces in sources, -- this compression should be reasonably efficient. We can put in -- something better later on. -- Note that this compression applies to the Write_Tree_Data and -- Read_Tree_Data calls, not to the calls to read and write single -- scalar values, which are written in memory format without any -- compression. C_Noncomp : constant := 2#00_000000#; C_Zeros : constant := 2#01_000000#; C_Spaces : constant := 2#10_000000#; C_Repeat : constant := 2#11_000000#; -- Codes for compression sequences Max_Count : constant := 63; -- Maximum data length for one compression sequence -- The above compression scheme applies only to data written with the -- Tree_Write routine and read with Tree_Read. Data written using the -- Tree_Write_Char or Tree_Write_Int routines and read using the -- corresponding input routines is not compressed. type Int_Bytes is array (1 .. 4) of Byte; for Int_Bytes'Size use 32; function To_Int_Bytes is new Unchecked_Conversion (Int, Int_Bytes); function To_Int is new Unchecked_Conversion (Int_Bytes, Int); ---------------------- -- Global Variables -- ---------------------- Tree_FD : File_Descriptor; -- File descriptor for tree Buflen : constant Int := 8_192; -- Length of buffer for read and write file data Buf : array (Pos range 1 .. Buflen) of Byte; -- Read/write file data buffer Bufn : Nat; -- Number of bytes read/written from/to buffer Buft : Nat; -- Total number of bytes in input buffer containing valid data. Used only -- for input operations. There is data left to be processed in the buffer -- if Buft > Bufn. A value of zero for Buft means that the buffer is empty. ----------------------- -- Local Subprograms -- ----------------------- procedure Read_Buffer; -- Reads data into buffer, setting Bufn appropriately function Read_Byte return Byte; pragma Inline (Read_Byte); -- Returns next byte from input file, raises Tree_Format_Error if none left procedure Write_Buffer; -- Writes out current buffer contents procedure Write_Byte (B : Byte); pragma Inline (Write_Byte); -- Write one byte to output buffer, checking for buffer-full condition ----------------- -- Read_Buffer -- ----------------- procedure Read_Buffer is begin Buft := Int (Read (Tree_FD, Buf (1)'Address, Integer (Buflen))); if Buft = 0 then raise Tree_Format_Error; else Bufn := 0; end if; end Read_Buffer; --------------- -- Read_Byte -- --------------- function Read_Byte return Byte is begin if Bufn = Buft then Read_Buffer; end if; Bufn := Bufn + 1; return Buf (Bufn); end Read_Byte; -------------------- -- Tree_Read_Bool -- -------------------- procedure Tree_Read_Bool (B : out Boolean) is begin B := Boolean'Val (Read_Byte); if Debug_Flag_Tree then if B then Write_Str ("True"); else Write_Str ("False"); end if; Write_Eol; end if; end Tree_Read_Bool; -------------------- -- Tree_Read_Char -- -------------------- procedure Tree_Read_Char (C : out Character) is begin C := Character'Val (Read_Byte); if Debug_Flag_Tree then Write_Str ("==> transmitting Character = "); Write_Char (C); Write_Eol; end if; end Tree_Read_Char; -------------------- -- Tree_Read_Data -- -------------------- procedure Tree_Read_Data (Addr : Address; Length : Int) is type S is array (Pos) of Byte; -- This is a big array, for which we have to suppress the warning type SP is access all S; function To_SP is new Unchecked_Conversion (Address, SP); Data : constant SP := To_SP (Addr); -- Data buffer to be read as an indexable array of bytes OP : Pos := 1; -- Pointer to next byte of data buffer to be read into B : Byte; C : Byte; L : Int; begin if Debug_Flag_Tree then Write_Str ("==> transmitting "); Write_Int (Length); Write_Str (" data bytes"); Write_Eol; end if; -- Verify data length Tree_Read_Int (L); if L /= Length then Write_Str ("==> transmitting, expected "); Write_Int (Length); Write_Str (" bytes, found length = "); Write_Int (L); Write_Eol; raise Tree_Format_Error; end if; -- Loop to read data while OP <= Length loop -- Get compression control character B := Read_Byte; C := B and 2#00_111111#; B := B and 2#11_000000#; -- Non-repeat case if B = C_Noncomp then if Debug_Flag_Tree then Write_Str ("==> uncompressed: "); Write_Int (Int (C)); Write_Str (", starting at "); Write_Int (OP); Write_Eol; end if; for J in 1 .. C loop Data (OP) := Read_Byte; OP := OP + 1; end loop; -- Repeated zeroes elsif B = C_Zeros then if Debug_Flag_Tree then Write_Str ("==> zeroes: "); Write_Int (Int (C)); Write_Str (", starting at "); Write_Int (OP); Write_Eol; end if; for J in 1 .. C loop Data (OP) := 0; OP := OP + 1; end loop; -- Repeated spaces elsif B = C_Spaces then if Debug_Flag_Tree then Write_Str ("==> spaces: "); Write_Int (Int (C)); Write_Str (", starting at "); Write_Int (OP); Write_Eol; end if; for J in 1 .. C loop Data (OP) := Character'Pos (' '); OP := OP + 1; end loop; -- Specified repeated character else -- B = C_Repeat B := Read_Byte; if Debug_Flag_Tree then Write_Str ("==> other char: "); Write_Int (Int (C)); Write_Str (" ("); Write_Int (Int (B)); Write_Char (')'); Write_Str (", starting at "); Write_Int (OP); Write_Eol; end if; for J in 1 .. C loop Data (OP) := B; OP := OP + 1; end loop; end if; end loop; -- At end of loop, data item must be exactly filled if OP /= Length + 1 then raise Tree_Format_Error; end if; end Tree_Read_Data; -------------------------- -- Tree_Read_Initialize -- -------------------------- procedure Tree_Read_Initialize (Desc : File_Descriptor) is begin Buft := 0; Bufn := 0; Tree_FD := Desc; Debug_Flag_Tree := Debug_Flag_5; end Tree_Read_Initialize; ------------------- -- Tree_Read_Int -- ------------------- procedure Tree_Read_Int (N : out Int) is N_Bytes : Int_Bytes; begin for J in 1 .. 4 loop N_Bytes (J) := Read_Byte; end loop; N := To_Int (N_Bytes); if Debug_Flag_Tree then Write_Str ("==> transmitting Int = "); Write_Int (N); Write_Eol; end if; end Tree_Read_Int; ------------------- -- Tree_Read_Str -- ------------------- procedure Tree_Read_Str (S : out String_Ptr) is N : Nat; begin Tree_Read_Int (N); S := new String (1 .. Natural (N)); Tree_Read_Data (S.all (1)'Address, N); end Tree_Read_Str; ------------------------- -- Tree_Read_Terminate -- ------------------------- procedure Tree_Read_Terminate is begin -- Must be at end of input buffer, so we should get Tree_Format_Error -- if we try to read one more byte, if not, we have a format error. declare B : Byte; pragma Warnings (Off, B); begin B := Read_Byte; exception when Tree_Format_Error => return; end; raise Tree_Format_Error; end Tree_Read_Terminate; --------------------- -- Tree_Write_Bool -- --------------------- procedure Tree_Write_Bool (B : Boolean) is begin if Debug_Flag_Tree then Write_Str ("==> transmitting Boolean = "); if B then Write_Str ("True"); else Write_Str ("False"); end if; Write_Eol; end if; Write_Byte (Boolean'Pos (B)); end Tree_Write_Bool; --------------------- -- Tree_Write_Char -- --------------------- procedure Tree_Write_Char (C : Character) is begin if Debug_Flag_Tree then Write_Str ("==> transmitting Character = "); Write_Char (C); Write_Eol; end if; Write_Byte (Character'Pos (C)); end Tree_Write_Char; --------------------- -- Tree_Write_Data -- --------------------- procedure Tree_Write_Data (Addr : Address; Length : Int) is type S is array (Pos) of Byte; -- This is a big array, for which we have to suppress the warning type SP is access all S; function To_SP is new Unchecked_Conversion (Address, SP); Data : constant SP := To_SP (Addr); -- Pointer to data to be written, converted to array type IP : Pos := 1; -- Input buffer pointer, next byte to be processed NC : Nat range 0 .. Max_Count := 0; -- Number of bytes of non-compressible sequence C : Byte; procedure Write_Non_Compressed_Sequence; -- Output currently collected sequence of non-compressible data ----------------------------------- -- Write_Non_Compressed_Sequence -- ----------------------------------- procedure Write_Non_Compressed_Sequence is begin if NC > 0 then Write_Byte (C_Noncomp + Byte (NC)); if Debug_Flag_Tree then Write_Str ("==> uncompressed: "); Write_Int (NC); Write_Str (", starting at "); Write_Int (IP - NC); Write_Eol; end if; for J in reverse 1 .. NC loop Write_Byte (Data (IP - J)); end loop; NC := 0; end if; end Write_Non_Compressed_Sequence; -- Start of processing for Tree_Write_Data begin if Debug_Flag_Tree then Write_Str ("==> transmitting "); Write_Int (Length); Write_Str (" data bytes"); Write_Eol; end if; -- We write the count at the start, so that we can check it on -- the corresponding read to make sure that reads and writes match Tree_Write_Int (Length); -- Conversion loop -- IP is index of next input character -- NC is number of non-compressible bytes saved up loop -- If input is completely processed, then we are all done if IP > Length then Write_Non_Compressed_Sequence; return; end if; -- Test for compressible sequence, must be at least three identical -- bytes in a row to be worthwhile compressing. if IP + 2 <= Length and then Data (IP) = Data (IP + 1) and then Data (IP) = Data (IP + 2) then Write_Non_Compressed_Sequence; -- Count length of new compression sequence C := 3; IP := IP + 3; while IP < Length and then Data (IP) = Data (IP - 1) and then C < Max_Count loop C := C + 1; IP := IP + 1; end loop; -- Output compression sequence if Data (IP - 1) = 0 then if Debug_Flag_Tree then Write_Str ("==> zeroes: "); Write_Int (Int (C)); Write_Str (", starting at "); Write_Int (IP - Int (C)); Write_Eol; end if; Write_Byte (C_Zeros + C); elsif Data (IP - 1) = Character'Pos (' ') then if Debug_Flag_Tree then Write_Str ("==> spaces: "); Write_Int (Int (C)); Write_Str (", starting at "); Write_Int (IP - Int (C)); Write_Eol; end if; Write_Byte (C_Spaces + C); else if Debug_Flag_Tree then Write_Str ("==> other char: "); Write_Int (Int (C)); Write_Str (" ("); Write_Int (Int (Data (IP - 1))); Write_Char (')'); Write_Str (", starting at "); Write_Int (IP - Int (C)); Write_Eol; end if; Write_Byte (C_Repeat + C); Write_Byte (Data (IP - 1)); end if; -- No compression possible here else -- Output non-compressed sequence if at maximum length if NC = Max_Count then Write_Non_Compressed_Sequence; end if; NC := NC + 1; IP := IP + 1; end if; end loop; end Tree_Write_Data; --------------------------- -- Tree_Write_Initialize -- --------------------------- procedure Tree_Write_Initialize (Desc : File_Descriptor) is begin Bufn := 0; Tree_FD := Desc; Set_Standard_Error; Debug_Flag_Tree := Debug_Flag_5; end Tree_Write_Initialize; -------------------- -- Tree_Write_Int -- -------------------- procedure Tree_Write_Int (N : Int) is N_Bytes : constant Int_Bytes := To_Int_Bytes (N); begin if Debug_Flag_Tree then Write_Str ("==> transmitting Int = "); Write_Int (N); Write_Eol; end if; for J in 1 .. 4 loop Write_Byte (N_Bytes (J)); end loop; end Tree_Write_Int; -------------------- -- Tree_Write_Str -- -------------------- procedure Tree_Write_Str (S : String_Ptr) is begin Tree_Write_Int (S'Length); Tree_Write_Data (S (1)'Address, S'Length); end Tree_Write_Str; -------------------------- -- Tree_Write_Terminate -- -------------------------- procedure Tree_Write_Terminate is begin if Bufn > 0 then Write_Buffer; end if; end Tree_Write_Terminate; ------------------ -- Write_Buffer -- ------------------ procedure Write_Buffer is begin if Integer (Bufn) = Write (Tree_FD, Buf'Address, Integer (Bufn)) then Bufn := 0; else Set_Standard_Error; Write_Str ("fatal error: disk full"); OS_Exit (2); end if; end Write_Buffer; ---------------- -- Write_Byte -- ---------------- procedure Write_Byte (B : Byte) is begin Bufn := Bufn + 1; Buf (Bufn) := B; if Bufn = Buflen then Write_Buffer; end if; end Write_Byte; end Tree_IO;
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