(* BSD 2-Clause License Copyright (c) 2019-2020, Anton Krotov All rights reserved. *) MODULE RTL; IMPORT SYSTEM, F := FPU; CONST bit_depth = 32; maxint = 7FFFFFFFH; minint = 80000000H; WORD = bit_depth DIV 8; MAX_SET = bit_depth - 1; VAR Heap, Types, TypesCount: INTEGER; PROCEDURE [code] sp (): INTEGER 4668H; (* mov r0, sp *) PROCEDURE _fmul* (b, a: INTEGER): INTEGER; RETURN F.mul(b, a) END _fmul; PROCEDURE _fdiv* (b, a: INTEGER): INTEGER; RETURN F._div(b, a) END _fdiv; PROCEDURE _fdivi* (b, a: INTEGER): INTEGER; RETURN F._div(a, b) END _fdivi; PROCEDURE _fadd* (b, a: INTEGER): INTEGER; RETURN F.add(b, a) END _fadd; PROCEDURE _fsub* (b, a: INTEGER): INTEGER; RETURN F.sub(b, a) END _fsub; PROCEDURE _fsubi* (b, a: INTEGER): INTEGER; RETURN F.sub(a, b) END _fsubi; PROCEDURE _fcmp* (op, b, a: INTEGER): BOOLEAN; RETURN F.cmp(op, b, a) END _fcmp; PROCEDURE _floor* (x: INTEGER): INTEGER; RETURN F.floor(x) END _floor; PROCEDURE _flt* (x: INTEGER): INTEGER; RETURN F.flt(x) END _flt; PROCEDURE _pack* (n: INTEGER; VAR x: SET); BEGIN n := LSL((LSR(ORD(x), 23) MOD 256 + n) MOD 256, 23); x := x - {23..30} + BITS(n) END _pack; PROCEDURE _unpk* (VAR n: INTEGER; VAR x: SET); BEGIN n := LSR(ORD(x), 23) MOD 256 - 127; x := x - {30} + {23..29} END _unpk; PROCEDURE _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 _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 _set1* (a: INTEGER): INTEGER; BEGIN IF ASR(a, 5) = 0 THEN a := LSL(1, a) ELSE a := 0 END RETURN a END _set1; PROCEDURE _length* (len, str: INTEGER): INTEGER; VAR c: CHAR; res: INTEGER; BEGIN res := 0; REPEAT SYSTEM.GET(str, c); INC(str); DEC(len); INC(res) UNTIL (len = 0) OR (c = 0X); RETURN res - ORD(c = 0X) END _length; PROCEDURE _move* (bytes, dest, source: INTEGER); VAR b: BYTE; i: INTEGER; BEGIN WHILE ((source MOD WORD # 0) OR (dest MOD WORD # 0)) & (bytes > 0) DO SYSTEM.GET(source, b); SYSTEM.PUT8(dest, b); INC(source); INC(dest); DEC(bytes) END; WHILE bytes >= WORD DO SYSTEM.GET(source, i); SYSTEM.PUT(dest, i); INC(source, WORD); INC(dest, WORD); DEC(bytes, WORD) END; WHILE bytes > 0 DO SYSTEM.GET(source, b); SYSTEM.PUT8(dest, b); INC(source); INC(dest); DEC(bytes) END END _move; PROCEDURE _lengthw* (len, str: INTEGER): INTEGER; VAR c: WCHAR; res: INTEGER; BEGIN res := 0; REPEAT SYSTEM.GET(str, c); INC(str, 2); DEC(len); INC(res) UNTIL (len = 0) OR (c = 0X); RETURN res - ORD(c = 0X) END _lengthw; PROCEDURE strncmp (a, b, n: INTEGER): INTEGER; VAR A, B: CHAR; res: INTEGER; BEGIN res := 0; WHILE n > 0 DO SYSTEM.GET(a, A); INC(a); SYSTEM.GET(b, B); INC(b); DEC(n); IF A # B THEN res := ORD(A) - ORD(B); n := 0 ELSIF A = 0X THEN n := 0 END END RETURN res END strncmp; PROCEDURE _strcmp* (op, len2, str2, len1, str1: INTEGER): BOOLEAN; VAR res: INTEGER; bRes: BOOLEAN; BEGIN res := strncmp(str1, str2, MIN(len1, len2)); IF res = 0 THEN res := _length(len1, str1) - _length(len2, str2) 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 strncmpw (a, b, n: INTEGER): INTEGER; VAR A, B: WCHAR; res: INTEGER; BEGIN res := 0; WHILE n > 0 DO SYSTEM.GET(a, A); INC(a, 2); SYSTEM.GET(b, B); INC(b, 2); DEC(n); IF A # B THEN res := ORD(A) - ORD(B); n := 0 ELSIF A = WCHR(0) THEN n := 0 END END RETURN res END strncmpw; PROCEDURE _strcmpw* (op, len2, str2, len1, str1: INTEGER): BOOLEAN; VAR res: INTEGER; bRes: BOOLEAN; BEGIN res := strncmpw(str1, str2, MIN(len1, len2)); IF res = 0 THEN res := _lengthw(len1, str1) - _lengthw(len2, str2) 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 _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 _strcpy* (chr_size, len_src, src, len_dst, dst: INTEGER); BEGIN _move(MIN(len_dst, len_src) * chr_size, dst, src) END _strcpy; PROCEDURE _new* (t, size: INTEGER; VAR p: INTEGER); BEGIN IF Heap + size < sp() - 64 THEN p := Heap + WORD; REPEAT SYSTEM.PUT(Heap, t); INC(Heap, WORD); DEC(size, WORD); t := 0 UNTIL size = 0 ELSE p := 0 END END _new; PROCEDURE _guard* (t, p: INTEGER): BOOLEAN; VAR _type: INTEGER; BEGIN SYSTEM.GET(p, p); IF p # 0 THEN SYSTEM.GET(p - WORD, _type); WHILE (_type # t) & (_type # 0) DO SYSTEM.GET(Types + _type * WORD, _type) END ELSE _type := t END RETURN _type = t END _guard; PROCEDURE _is* (t, p: INTEGER): BOOLEAN; VAR _type: INTEGER; BEGIN _type := 0; IF p # 0 THEN SYSTEM.GET(p - WORD, _type); WHILE (_type # t) & (_type # 0) DO SYSTEM.GET(Types + _type * WORD, _type) END END RETURN _type = t END _is; PROCEDURE _guardrec* (t0, t1: INTEGER): BOOLEAN; BEGIN WHILE (t1 # t0) & (t1 # 0) DO SYSTEM.GET(Types + t1 * WORD, t1) END RETURN t1 = t0 END _guardrec; PROCEDURE _init* (tcount, heap, types: INTEGER); BEGIN Heap := heap; TypesCount := tcount; Types := types END _init; END RTL.