(* BSD 2-Clause License Copyright (c) 2019-2020, Anton Krotov All rights reserved. *) MODULE HOST; IMPORT SYSTEM, API, RTL; CONST slash* = "/"; eol* = 0AX; bit_depth* = RTL.bit_depth; maxint* = RTL.maxint; minint* = RTL.minint; RTLD_LAZY = 1; TYPE TP = ARRAY 2 OF INTEGER; VAR maxreal*: REAL; argc: INTEGER; libc, librt: INTEGER; stdout: INTEGER; fread, fwrite : PROCEDURE [linux] (buffer, bytes, blocks, file: INTEGER): INTEGER; fopen : PROCEDURE [linux] (fname, fmode: INTEGER): INTEGER; fclose : PROCEDURE [linux] (file: INTEGER): INTEGER; _chmod : PROCEDURE [linux] (fname: INTEGER; mode: SET): INTEGER; time : PROCEDURE [linux] (ptr: INTEGER): INTEGER; clock_gettime : PROCEDURE [linux] (clock_id: INTEGER; VAR tp: TP): INTEGER; exit : PROCEDURE [linux] (code: INTEGER); PROCEDURE ExitProcess* (code: INTEGER); BEGIN exit(code) END ExitProcess; PROCEDURE GetArg* (n: INTEGER; VAR s: ARRAY OF CHAR); VAR i, len, ptr: INTEGER; c: CHAR; BEGIN i := 0; len := LEN(s) - 1; IF (n < argc) & (len > 0) THEN SYSTEM.GET(API.MainParam + (n + 1) * SYSTEM.SIZE(INTEGER), ptr); REPEAT SYSTEM.GET(ptr, c); s[i] := c; INC(i); INC(ptr) UNTIL (c = 0X) OR (i = len) END; s[i] := 0X END GetArg; PROCEDURE GetCurrentDirectory* (VAR path: ARRAY OF CHAR); VAR n: INTEGER; BEGIN GetArg(0, path); n := LENGTH(path) - 1; WHILE path[n] # slash DO DEC(n) END; path[n + 1] := 0X END GetCurrentDirectory; PROCEDURE FileRead* (F: INTEGER; VAR Buffer: ARRAY OF CHAR; bytes: INTEGER): INTEGER; VAR res: INTEGER; BEGIN res := fread(SYSTEM.ADR(Buffer[0]), 1, bytes, F); IF res <= 0 THEN res := -1 END RETURN res END FileRead; PROCEDURE FileWrite* (F: INTEGER; Buffer: ARRAY OF BYTE; bytes: INTEGER): INTEGER; VAR res: INTEGER; BEGIN res := fwrite(SYSTEM.ADR(Buffer[0]), 1, bytes, F); IF res <= 0 THEN res := -1 END RETURN res END FileWrite; PROCEDURE FileCreate* (FName: ARRAY OF CHAR): INTEGER; RETURN fopen(SYSTEM.ADR(FName[0]), SYSTEM.SADR("wb")) END FileCreate; PROCEDURE FileClose* (File: INTEGER); BEGIN File := fclose(File) END FileClose; PROCEDURE chmod* (FName: ARRAY OF CHAR); VAR res: INTEGER; BEGIN res := _chmod(SYSTEM.ADR(FName[0]), {0, 2..8}) (* rwxrwxr-x *) END chmod; PROCEDURE FileOpen* (FName: ARRAY OF CHAR): INTEGER; RETURN fopen(SYSTEM.ADR(FName[0]), SYSTEM.SADR("rb")) END FileOpen; PROCEDURE OutChar* (c: CHAR); VAR res: INTEGER; BEGIN res := fwrite(SYSTEM.ADR(c), 1, 1, stdout) END OutChar; PROCEDURE GetTickCount* (): INTEGER; VAR tp: TP; res: INTEGER; BEGIN IF clock_gettime(0, tp) = 0 THEN res := tp[0] * 100 + tp[1] DIV 10000000 ELSE res := 0 END RETURN res END GetTickCount; PROCEDURE isRelative* (path: ARRAY OF CHAR): BOOLEAN; RETURN path[0] # slash END isRelative; PROCEDURE UnixTime* (): INTEGER; RETURN time(0) END UnixTime; PROCEDURE splitf* (x: REAL; VAR a, b: INTEGER): INTEGER; VAR res: INTEGER; BEGIN a := 0; b := 0; SYSTEM.GET32(SYSTEM.ADR(x), a); SYSTEM.GET32(SYSTEM.ADR(x) + 4, b); SYSTEM.GET(SYSTEM.ADR(x), res) RETURN res END splitf; PROCEDURE d2s* (x: REAL): INTEGER; VAR h, l, s, e: INTEGER; BEGIN e := splitf(x, l, h); s := ASR(h, 31) MOD 2; e := (h DIV 100000H) MOD 2048; IF e <= 896 THEN h := (h MOD 100000H) * 8 + (l DIV 20000000H) MOD 8 + 800000H; REPEAT h := h DIV 2; INC(e) UNTIL e = 897; e := 896; l := (h MOD 8) * 20000000H; h := h DIV 8 ELSIF (1151 <= e) & (e < 2047) THEN e := 1151; h := 0; l := 0 ELSIF e = 2047 THEN e := 1151; IF (h MOD 100000H # 0) OR (BITS(l) * {0..31} # {}) THEN h := 80000H; l := 0 END END; DEC(e, 896) RETURN LSL(s, 31) + LSL(e, 23) + (h MOD 100000H) * 8 + (l DIV 20000000H) MOD 8 END d2s; PROCEDURE GetSym (lib: INTEGER; name: ARRAY OF CHAR; VarAdr: INTEGER); VAR sym: INTEGER; BEGIN sym := API.dlsym(lib, SYSTEM.ADR(name[0])); ASSERT(sym # 0); SYSTEM.PUT(VarAdr, sym) END GetSym; BEGIN maxreal := 1.9; PACK(maxreal, 1023); SYSTEM.GET(API.MainParam, argc); libc := API.libc; GetSym(libc, "fread", SYSTEM.ADR(fread)); GetSym(libc, "fwrite", SYSTEM.ADR(fwrite)); GetSym(libc, "fopen", SYSTEM.ADR(fopen)); GetSym(libc, "fclose", SYSTEM.ADR(fclose)); GetSym(libc, "chmod", SYSTEM.ADR(_chmod)); GetSym(libc, "time", SYSTEM.ADR(time)); GetSym(libc, "exit", SYSTEM.ADR(exit)); GetSym(libc, "stdout", SYSTEM.ADR(stdout)); SYSTEM.GET(stdout - SYSTEM.SIZE(INTEGER), stdout); librt := API.dlopen(SYSTEM.SADR("librt.so.1"), RTLD_LAZY); GetSym(librt, "clock_gettime", SYSTEM.ADR(clock_gettime)) END HOST.