(* BSD 2-Clause License Copyright (c) 2018-2020, Anton Krotov All rights reserved. *) MODULE RTL; IMPORT SYSTEM, API; CONST bit_depth* = 32; maxint* = 7FFFFFFFH; minint* = 80000000H; WORD = bit_depth DIV 8; MAX_SET = bit_depth - 1; VAR name: INTEGER; types: INTEGER; PROCEDURE [stdcall] _move* (bytes, dest, source: INTEGER); BEGIN SYSTEM.CODE( 08BH, 045H, 008H, (* mov eax, dword [ebp + 8] *) 085H, 0C0H, (* test eax, eax *) 07EH, 019H, (* jle L *) 0FCH, (* cld *) 057H, (* push edi *) 056H, (* push esi *) 08BH, 075H, 010H, (* mov esi, dword [ebp + 16] *) 08BH, 07DH, 00CH, (* mov edi, dword [ebp + 12] *) 089H, 0C1H, (* mov ecx, eax *) 0C1H, 0E9H, 002H, (* shr ecx, 2 *) 0F3H, 0A5H, (* rep movsd *) 089H, 0C1H, (* mov ecx, eax *) 083H, 0E1H, 003H, (* and ecx, 3 *) 0F3H, 0A4H, (* rep movsb *) 05EH, (* pop esi *) 05FH (* pop edi *) (* L: *) ) END _move; PROCEDURE [stdcall] _arrcpy* (base_size, len_dst, dst, len_src, src: INTEGER): BOOLEAN; VAR res: BOOLEAN; BEGIN IF len_src > len_dst THEN res := FALSE ELSE _move(len_src * base_size, dst, src); res := TRUE END RETURN res END _arrcpy; PROCEDURE [stdcall] _strcpy* (chr_size, len_src, src, len_dst, dst: INTEGER); BEGIN _move(MIN(len_dst, len_src) * chr_size, dst, src) END _strcpy; PROCEDURE [stdcall] _rot* (VAR A: ARRAY OF INTEGER); VAR i, n, k: INTEGER; BEGIN k := LEN(A) - 1; n := A[0]; i := 0; WHILE i < k DO A[i] := A[i + 1]; INC(i) END; A[k] := n END _rot; PROCEDURE [stdcall] _set* (b, a: INTEGER): INTEGER; BEGIN IF (a <= b) & (a <= MAX_SET) & (b >= 0) THEN IF b > MAX_SET THEN b := MAX_SET END; IF a < 0 THEN a := 0 END; a := LSR(ASR(minint, b - a), MAX_SET - b) ELSE a := 0 END RETURN a END _set; PROCEDURE [stdcall] _set1* (a: INTEGER); (* {a} -> eax *) BEGIN SYSTEM.CODE( 031H, 0C0H, (* xor eax, eax *) 08BH, 04DH, 008H, (* mov ecx, dword [ebp + 8] *) (* ecx <- a *) 083H, 0F9H, 01FH, (* cmp ecx, 31 *) 077H, 003H, (* ja L *) 00FH, 0ABH, 0C8H (* bts eax, ecx *) (* L: *) ) END _set1; PROCEDURE [stdcall] _divmod* (y, x: INTEGER); (* (x div y) -> eax; (x mod y) -> edx *) BEGIN SYSTEM.CODE( 053H, (* push ebx *) 08BH, 045H, 00CH, (* mov eax, dword [ebp + 12] *) (* eax <- x *) 031H, 0D2H, (* xor edx, edx *) 085H, 0C0H, (* test eax, eax *) 074H, 018H, (* je L2 *) 07FH, 002H, (* jg L1 *) 0F7H, 0D2H, (* not edx *) (* L1: *) 089H, 0C3H, (* mov ebx, eax *) 08BH, 04DH, 008H, (* mov ecx, dword [ebp + 8] *) (* ecx <- y *) 0F7H, 0F9H, (* idiv ecx *) 085H, 0D2H, (* test edx, edx *) 074H, 009H, (* je L2 *) 031H, 0CBH, (* xor ebx, ecx *) 085H, 0DBH, (* test ebx, ebx *) 07DH, 003H, (* jge L2 *) 048H, (* dec eax *) 001H, 0CAH, (* add edx, ecx *) (* L2: *) 05BH (* pop ebx *) ) END _divmod; PROCEDURE [stdcall] _new* (t, size: INTEGER; VAR ptr: INTEGER); BEGIN ptr := API._NEW(size); IF ptr # 0 THEN SYSTEM.PUT(ptr, t); INC(ptr, WORD) END END _new; PROCEDURE [stdcall] _dispose* (VAR ptr: INTEGER); BEGIN IF ptr # 0 THEN ptr := API._DISPOSE(ptr - WORD) END END _dispose; PROCEDURE [stdcall] _length* (len, str: INTEGER); BEGIN SYSTEM.CODE( 08BH, 045H, 00CH, (* mov eax, dword [ebp + 0Ch] *) 08BH, 04DH, 008H, (* mov ecx, dword [ebp + 08h] *) 048H, (* dec eax *) (* L1: *) 040H, (* inc eax *) 080H, 038H, 000H, (* cmp byte [eax], 0 *) 074H, 003H, (* jz L2 *) 0E2H, 0F8H, (* loop L1 *) 040H, (* inc eax *) (* L2: *) 02BH, 045H, 00CH (* sub eax, dword [ebp + 0Ch] *) ) END _length; PROCEDURE [stdcall] _lengthw* (len, str: INTEGER); BEGIN SYSTEM.CODE( 08BH, 045H, 00CH, (* mov eax, dword [ebp + 0Ch] *) 08BH, 04DH, 008H, (* mov ecx, dword [ebp + 08h] *) 048H, (* dec eax *) 048H, (* dec eax *) (* L1: *) 040H, (* inc eax *) 040H, (* inc eax *) 066H, 083H, 038H, 000H, (* cmp word [eax], 0 *) 074H, 004H, (* jz L2 *) 0E2H, 0F6H, (* loop L1 *) 040H, (* inc eax *) 040H, (* inc eax *) (* L2: *) 02BH, 045H, 00CH, (* sub eax, dword [ebp + 0Ch] *) 0D1H, 0E8H (* shr eax, 1 *) ) END _lengthw; PROCEDURE [stdcall] strncmp (a, b, n: INTEGER): INTEGER; BEGIN SYSTEM.CODE( 056H, (* push esi *) 057H, (* push edi *) 053H, (* push ebx *) 08BH, 075H, 008H, (* mov esi, dword[ebp + 8]; esi <- a *) 08BH, 07DH, 00CH, (* mov edi, dword[ebp + 12]; edi <- b *) 08BH, 05DH, 010H, (* mov ebx, dword[ebp + 16]; ebx <- n *) 031H, 0C9H, (* xor ecx, ecx *) 031H, 0D2H, (* xor edx, edx *) 0B8H, 000H, 000H, 000H, 080H, (* mov eax, minint *) (* L1: *) 085H, 0DBH, (* test ebx, ebx *) 07EH, 017H, (* jle L3 *) 08AH, 00EH, (* mov cl, byte[esi] *) 08AH, 017H, (* mov dl, byte[edi] *) 046H, (* inc esi *) 047H, (* inc edi *) 04BH, (* dec ebx *) 039H, 0D1H, (* cmp ecx, edx *) 074H, 006H, (* je L2 *) 089H, 0C8H, (* mov eax, ecx *) 029H, 0D0H, (* sub eax, edx *) 0EBH, 006H, (* jmp L3 *) (* L2: *) 085H, 0C9H, (* test ecx, ecx *) 075H, 0E7H, (* jne L1 *) 031H, 0C0H, (* xor eax, eax *) (* L3: *) 05BH, (* pop ebx *) 05FH, (* pop edi *) 05EH, (* pop esi *) 05DH, (* pop ebp *) 0C2H, 00CH, 000H (* ret 12 *) ) RETURN 0 END strncmp; PROCEDURE [stdcall] strncmpw (a, b, n: INTEGER): INTEGER; BEGIN SYSTEM.CODE( 056H, (* push esi *) 057H, (* push edi *) 053H, (* push ebx *) 08BH, 075H, 008H, (* mov esi, dword[ebp + 8]; esi <- a *) 08BH, 07DH, 00CH, (* mov edi, dword[ebp + 12]; edi <- b *) 08BH, 05DH, 010H, (* mov ebx, dword[ebp + 16]; ebx <- n *) 031H, 0C9H, (* xor ecx, ecx *) 031H, 0D2H, (* xor edx, edx *) 0B8H, 000H, 000H, 000H, 080H, (* mov eax, minint *) (* L1: *) 085H, 0DBH, (* test ebx, ebx *) 07EH, 01BH, (* jle L3 *) 066H, 08BH, 00EH, (* mov cx, word[esi] *) 066H, 08BH, 017H, (* mov dx, word[edi] *) 046H, (* inc esi *) 046H, (* inc esi *) 047H, (* inc edi *) 047H, (* inc edi *) 04BH, (* dec ebx *) 039H, 0D1H, (* cmp ecx, edx *) 074H, 006H, (* je L2 *) 089H, 0C8H, (* mov eax, ecx *) 029H, 0D0H, (* sub eax, edx *) 0EBH, 006H, (* jmp L3 *) (* L2: *) 085H, 0C9H, (* test ecx, ecx *) 075H, 0E3H, (* jne L1 *) 031H, 0C0H, (* xor eax, eax *) (* L3: *) 05BH, (* pop ebx *) 05FH, (* pop edi *) 05EH, (* pop esi *) 05DH, (* pop ebp *) 0C2H, 00CH, 000H (* ret 12 *) ) RETURN 0 END strncmpw; PROCEDURE [stdcall] _strcmp* (op, len2, str2, len1, str1: INTEGER): BOOLEAN; VAR res: INTEGER; bRes: BOOLEAN; c: CHAR; BEGIN res := strncmp(str1, str2, MIN(len1, len2)); IF res = minint THEN IF len1 > len2 THEN SYSTEM.GET(str1 + len2, c); res := ORD(c) ELSIF len1 < len2 THEN SYSTEM.GET(str2 + len1, c); res := -ORD(c) ELSE res := 0 END END; CASE op OF |0: bRes := res = 0 |1: bRes := res # 0 |2: bRes := res < 0 |3: bRes := res <= 0 |4: bRes := res > 0 |5: bRes := res >= 0 END RETURN bRes END _strcmp; PROCEDURE [stdcall] _strcmpw* (op, len2, str2, len1, str1: INTEGER): BOOLEAN; VAR res: INTEGER; bRes: BOOLEAN; c: WCHAR; BEGIN res := strncmpw(str1, str2, MIN(len1, len2)); IF res = minint THEN IF len1 > len2 THEN SYSTEM.GET(str1 + len2 * 2, c); res := ORD(c) ELSIF len1 < len2 THEN SYSTEM.GET(str2 + len1 * 2, c); res := -ORD(c) ELSE res := 0 END END; CASE op OF |0: bRes := res = 0 |1: bRes := res # 0 |2: bRes := res < 0 |3: bRes := res <= 0 |4: bRes := res > 0 |5: bRes := res >= 0 END RETURN bRes END _strcmpw; PROCEDURE PCharToStr (pchar: INTEGER; VAR s: ARRAY OF CHAR); VAR c: CHAR; i: INTEGER; BEGIN i := 0; REPEAT SYSTEM.GET(pchar, c); s[i] := c; INC(pchar); INC(i) UNTIL c = 0X END PCharToStr; PROCEDURE IntToStr (x: INTEGER; VAR str: ARRAY OF CHAR); VAR i, a: INTEGER; BEGIN i := 0; a := x; REPEAT INC(i); a := a DIV 10 UNTIL a = 0; str[i] := 0X; REPEAT DEC(i); str[i] := CHR(x MOD 10 + ORD("0")); x := x DIV 10 UNTIL x = 0 END IntToStr; PROCEDURE append (VAR s1: ARRAY OF CHAR; s2: ARRAY OF CHAR); VAR n1, n2: INTEGER; BEGIN n1 := LENGTH(s1); n2 := LENGTH(s2); ASSERT(n1 + n2 < LEN(s1)); SYSTEM.MOVE(SYSTEM.ADR(s2[0]), SYSTEM.ADR(s1[n1]), n2); s1[n1 + n2] := 0X END append; PROCEDURE [stdcall] _error* (modnum, _module, err, line: INTEGER); VAR s, temp: ARRAY 1024 OF CHAR; BEGIN CASE err OF | 1: s := "assertion failure" | 2: s := "NIL dereference" | 3: s := "bad divisor" | 4: s := "NIL procedure call" | 5: s := "type guard error" | 6: s := "index out of range" | 7: s := "invalid CASE" | 8: s := "array assignment error" | 9: s := "CHR out of range" |10: s := "WCHR out of range" |11: s := "BYTE out of range" END; append(s, API.eol + "module: "); PCharToStr(_module, temp); append(s, temp); append(s, API.eol + "line: "); IntToStr(line, temp); append(s, temp); API.DebugMsg(SYSTEM.ADR(s[0]), name); API.exit_thread(0) END _error; PROCEDURE [stdcall] _isrec* (t0, t1, r: INTEGER): INTEGER; BEGIN SYSTEM.GET(t0 + t1 + types, t0) RETURN t0 MOD 2 END _isrec; PROCEDURE [stdcall] _is* (t0, p: INTEGER): INTEGER; BEGIN IF p # 0 THEN SYSTEM.GET(p - WORD, p); SYSTEM.GET(t0 + p + types, p) END RETURN p MOD 2 END _is; PROCEDURE [stdcall] _guardrec* (t0, t1: INTEGER): INTEGER; BEGIN SYSTEM.GET(t0 + t1 + types, t0) RETURN t0 MOD 2 END _guardrec; PROCEDURE [stdcall] _guard* (t0, p: INTEGER): INTEGER; BEGIN SYSTEM.GET(p, p); IF p # 0 THEN SYSTEM.GET(p - WORD, p); SYSTEM.GET(t0 + p + types, p) ELSE p := 1 END RETURN p MOD 2 END _guard; PROCEDURE [stdcall] _dllentry* (hinstDLL, fdwReason, lpvReserved: INTEGER): INTEGER; RETURN API.dllentry(hinstDLL, fdwReason, lpvReserved) END _dllentry; PROCEDURE [stdcall] _sofinit*; BEGIN API.sofinit END _sofinit; PROCEDURE [stdcall] _exit* (code: INTEGER); BEGIN API.exit(code) END _exit; PROCEDURE [stdcall] _init* (modname: INTEGER; tcount, _types: INTEGER; code, param: INTEGER); VAR t0, t1, i, j: INTEGER; BEGIN SYSTEM.CODE(09BH, 0DBH, 0E3H); (* finit *) API.init(param, code); types := API._NEW(tcount * tcount + SYSTEM.SIZE(INTEGER)); ASSERT(types # 0); FOR i := 0 TO tcount - 1 DO FOR j := 0 TO tcount - 1 DO t0 := i; t1 := j; WHILE (t1 # 0) & (t1 # t0) DO SYSTEM.GET(_types + t1 * WORD, t1) END; SYSTEM.PUT8(i * tcount + j + types, ORD(t0 = t1)) END END; name := modname END _init; END RTL.