/* * Integer number functions. * * Copyright (C) 2001 Peter Johnson * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND OTHER CONTRIBUTORS ``AS IS'' * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR OTHER CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #define YASM_LIB_INTERNAL #include "util.h" /*@unused@*/ RCSID("$Id$"); #include #include #include "coretype.h" #include "bitvect.h" #include "file.h" #include "errwarn.h" #include "intnum.h" /* "Native" "word" size for intnum calculations. */ #define BITVECT_NATIVE_SIZE 128 struct yasm_intnum { union val { unsigned long ul; /* integer value (for integers <=32 bits) */ wordptr bv; /* bit vector (for integers >32 bits) */ } val; enum { INTNUM_UL, INTNUM_BV } type; unsigned char origsize; /* original (parsed) size, in bits */ }; /* static bitvect used for conversions */ static /*@only@*/ wordptr conv_bv; /* static bitvects used for computation */ static /*@only@*/ wordptr result, spare, op1static, op2static; static /*@only@*/ BitVector_from_Dec_static_data *from_dec_data; void yasm_intnum_initialize(void) { conv_bv = BitVector_Create(BITVECT_NATIVE_SIZE, FALSE); result = BitVector_Create(BITVECT_NATIVE_SIZE, FALSE); spare = BitVector_Create(BITVECT_NATIVE_SIZE, FALSE); op1static = BitVector_Create(BITVECT_NATIVE_SIZE, FALSE); op2static = BitVector_Create(BITVECT_NATIVE_SIZE, FALSE); from_dec_data = BitVector_from_Dec_static_Boot(BITVECT_NATIVE_SIZE); } void yasm_intnum_cleanup(void) { BitVector_from_Dec_static_Shutdown(from_dec_data); BitVector_Destroy(op2static); BitVector_Destroy(op1static); BitVector_Destroy(spare); BitVector_Destroy(result); BitVector_Destroy(conv_bv); } yasm_intnum * yasm_intnum_create_dec(char *str, unsigned long line) { yasm_intnum *intn = yasm_xmalloc(sizeof(yasm_intnum)); intn->origsize = 0; /* no reliable way to figure this out */ if (BitVector_from_Dec_static(from_dec_data, conv_bv, (unsigned char *)str) == ErrCode_Ovfl) yasm__warning(YASM_WARN_GENERAL, line, N_("Numeric constant too large for internal format")); if (Set_Max(conv_bv) < 32) { intn->type = INTNUM_UL; intn->val.ul = BitVector_Chunk_Read(conv_bv, 32, 0); } else { intn->type = INTNUM_BV; intn->val.bv = BitVector_Clone(conv_bv); } return intn; } yasm_intnum * yasm_intnum_create_bin(char *str, unsigned long line) { yasm_intnum *intn = yasm_xmalloc(sizeof(yasm_intnum)); intn->origsize = (unsigned char)strlen(str); if(intn->origsize > BITVECT_NATIVE_SIZE) yasm__warning(YASM_WARN_GENERAL, line, N_("Numeric constant too large for internal format")); BitVector_from_Bin(conv_bv, (unsigned char *)str); if (Set_Max(conv_bv) < 32) { intn->type = INTNUM_UL; intn->val.ul = BitVector_Chunk_Read(conv_bv, 32, 0); } else { intn->type = INTNUM_BV; intn->val.bv = BitVector_Clone(conv_bv); } return intn; } yasm_intnum * yasm_intnum_create_oct(char *str, unsigned long line) { yasm_intnum *intn = yasm_xmalloc(sizeof(yasm_intnum)); intn->origsize = strlen(str)*3; if(intn->origsize > BITVECT_NATIVE_SIZE) yasm__warning(YASM_WARN_GENERAL, line, N_("Numeric constant too large for internal format")); BitVector_from_Oct(conv_bv, (unsigned char *)str); if (Set_Max(conv_bv) < 32) { intn->type = INTNUM_UL; intn->val.ul = BitVector_Chunk_Read(conv_bv, 32, 0); } else { intn->type = INTNUM_BV; intn->val.bv = BitVector_Clone(conv_bv); } return intn; } yasm_intnum * yasm_intnum_create_hex(char *str, unsigned long line) { yasm_intnum *intn = yasm_xmalloc(sizeof(yasm_intnum)); intn->origsize = strlen(str)*4; if(intn->origsize > BITVECT_NATIVE_SIZE) yasm__warning(YASM_WARN_GENERAL, line, N_("Numeric constant too large for internal format")); BitVector_from_Hex(conv_bv, (unsigned char *)str); if (Set_Max(conv_bv) < 32) { intn->type = INTNUM_UL; intn->val.ul = BitVector_Chunk_Read(conv_bv, 32, 0); } else { intn->type = INTNUM_BV; intn->val.bv = BitVector_Clone(conv_bv); } return intn; } /*@-usedef -compdef -uniondef@*/ yasm_intnum * yasm_intnum_create_charconst_nasm(const char *str, unsigned long line) { yasm_intnum *intn = yasm_xmalloc(sizeof(yasm_intnum)); size_t len = strlen(str); intn->origsize = len*8; if(intn->origsize > BITVECT_NATIVE_SIZE) yasm__warning(YASM_WARN_GENERAL, line, N_("Character constant too large for internal format")); if (len > 4) { BitVector_Empty(conv_bv); intn->type = INTNUM_BV; } else { intn->val.ul = 0; intn->type = INTNUM_UL; } switch (len) { case 4: intn->val.ul |= (unsigned long)str[3]; intn->val.ul <<= 8; /*@fallthrough@*/ case 3: intn->val.ul |= (unsigned long)str[2]; intn->val.ul <<= 8; /*@fallthrough@*/ case 2: intn->val.ul |= (unsigned long)str[1]; intn->val.ul <<= 8; /*@fallthrough@*/ case 1: intn->val.ul |= (unsigned long)str[0]; case 0: break; default: /* >32 bit conversion */ while (len) { BitVector_Move_Left(conv_bv, 8); BitVector_Chunk_Store(conv_bv, 8, 0, (unsigned long)str[--len]); } intn->val.bv = BitVector_Clone(conv_bv); } return intn; } /*@=usedef =compdef =uniondef@*/ yasm_intnum * yasm_intnum_create_uint(unsigned long i) { yasm_intnum *intn = yasm_xmalloc(sizeof(yasm_intnum)); intn->val.ul = i; intn->type = INTNUM_UL; intn->origsize = 0; return intn; } yasm_intnum * yasm_intnum_create_int(long i) { yasm_intnum *intn; /* positive numbers can go through the uint() function */ if (i >= 0) return yasm_intnum_create_uint((unsigned long)i); BitVector_Empty(conv_bv); BitVector_Chunk_Store(conv_bv, 32, 0, (unsigned long)(-i)); BitVector_Negate(conv_bv, conv_bv); intn = yasm_xmalloc(sizeof(yasm_intnum)); intn->val.bv = BitVector_Clone(conv_bv); intn->type = INTNUM_BV; intn->origsize = 0; return intn; } yasm_intnum * yasm_intnum_copy(const yasm_intnum *intn) { yasm_intnum *n = yasm_xmalloc(sizeof(yasm_intnum)); switch (intn->type) { case INTNUM_UL: n->val.ul = intn->val.ul; break; case INTNUM_BV: n->val.bv = BitVector_Clone(intn->val.bv); break; } n->type = intn->type; n->origsize = intn->origsize; return n; } void yasm_intnum_destroy(yasm_intnum *intn) { if (intn->type == INTNUM_BV) BitVector_Destroy(intn->val.bv); yasm_xfree(intn); } /*@-nullderef -nullpass -branchstate@*/ void yasm_intnum_calc(yasm_intnum *acc, yasm_expr_op op, yasm_intnum *operand, unsigned long line) { boolean carry = 0; wordptr op1, op2 = NULL; /* Always do computations with in full bit vector. * Bit vector results must be calculated through intermediate storage. */ if (acc->type == INTNUM_BV) op1 = acc->val.bv; else { op1 = op1static; BitVector_Empty(op1); BitVector_Chunk_Store(op1, 32, 0, acc->val.ul); } if (operand) { if (operand->type == INTNUM_BV) op2 = operand->val.bv; else { op2 = op2static; BitVector_Empty(op2); BitVector_Chunk_Store(op2, 32, 0, operand->val.ul); } } if (!operand && op != YASM_EXPR_NEG && op != YASM_EXPR_NOT && op != YASM_EXPR_LNOT) yasm_internal_error(N_("Operation needs an operand")); /* A operation does a bitvector computation if result is allocated. */ switch (op) { case YASM_EXPR_ADD: BitVector_add(result, op1, op2, &carry); break; case YASM_EXPR_SUB: BitVector_sub(result, op1, op2, &carry); break; case YASM_EXPR_MUL: BitVector_Multiply(result, op1, op2); break; case YASM_EXPR_DIV: /* TODO: make sure op1 and op2 are unsigned */ BitVector_Divide(result, op1, op2, spare); break; case YASM_EXPR_SIGNDIV: BitVector_Divide(result, op1, op2, spare); break; case YASM_EXPR_MOD: /* TODO: make sure op1 and op2 are unsigned */ BitVector_Divide(spare, op1, op2, result); break; case YASM_EXPR_SIGNMOD: BitVector_Divide(spare, op1, op2, result); break; case YASM_EXPR_NEG: BitVector_Negate(result, op1); break; case YASM_EXPR_NOT: Set_Complement(result, op1); break; case YASM_EXPR_OR: Set_Union(result, op1, op2); break; case YASM_EXPR_AND: Set_Intersection(result, op1, op2); break; case YASM_EXPR_XOR: Set_ExclusiveOr(result, op1, op2); break; case YASM_EXPR_SHL: if (operand->type == INTNUM_UL) { BitVector_Copy(result, op1); BitVector_Move_Left(result, (N_int)operand->val.ul); } else /* don't even bother, just zero result */ BitVector_Empty(result); break; case YASM_EXPR_SHR: if (operand->type == INTNUM_UL) { BitVector_Copy(result, op1); BitVector_Move_Right(result, (N_int)operand->val.ul); } else /* don't even bother, just zero result */ BitVector_Empty(result); break; case YASM_EXPR_LOR: BitVector_Empty(result); BitVector_LSB(result, !BitVector_is_empty(op1) || !BitVector_is_empty(op2)); break; case YASM_EXPR_LAND: BitVector_Empty(result); BitVector_LSB(result, !BitVector_is_empty(op1) && !BitVector_is_empty(op2)); break; case YASM_EXPR_LNOT: BitVector_Empty(result); BitVector_LSB(result, BitVector_is_empty(op1)); break; case YASM_EXPR_EQ: BitVector_Empty(result); BitVector_LSB(result, BitVector_equal(op1, op2)); break; case YASM_EXPR_LT: BitVector_Empty(result); BitVector_LSB(result, BitVector_Lexicompare(op1, op2) < 0); break; case YASM_EXPR_GT: BitVector_Empty(result); BitVector_LSB(result, BitVector_Lexicompare(op1, op2) > 0); break; case YASM_EXPR_LE: BitVector_Empty(result); BitVector_LSB(result, BitVector_Lexicompare(op1, op2) <= 0); break; case YASM_EXPR_GE: BitVector_Empty(result); BitVector_LSB(result, BitVector_Lexicompare(op1, op2) >= 0); break; case YASM_EXPR_NE: BitVector_Empty(result); BitVector_LSB(result, !BitVector_equal(op1, op2)); break; case YASM_EXPR_SEG: yasm__error(line, N_("invalid use of '%s'"), "SEG"); break; case YASM_EXPR_WRT: yasm__error(line, N_("invalid use of '%s'"), "WRT"); break; case YASM_EXPR_SEGOFF: yasm__error(line, N_("invalid use of '%s'"), ":"); break; case YASM_EXPR_IDENT: if (result) BitVector_Copy(result, op1); break; default: yasm_internal_error(N_("invalid operation in intnum calculation")); } /* Try to fit the result into 32 bits if possible */ if (Set_Max(result) < 32) { if (acc->type == INTNUM_BV) { BitVector_Destroy(acc->val.bv); acc->type = INTNUM_UL; } acc->val.ul = BitVector_Chunk_Read(result, 32, 0); } else { if (acc->type == INTNUM_BV) { BitVector_Copy(acc->val.bv, result); } else { acc->type = INTNUM_BV; acc->val.bv = BitVector_Clone(result); } } } /*@=nullderef =nullpass =branchstate@*/ int yasm_intnum_is_zero(yasm_intnum *intn) { return (intn->type == INTNUM_UL && intn->val.ul == 0); } int yasm_intnum_is_pos1(yasm_intnum *intn) { return (intn->type == INTNUM_UL && intn->val.ul == 1); } int yasm_intnum_is_neg1(yasm_intnum *intn) { return (intn->type == INTNUM_BV && BitVector_is_full(intn->val.bv)); } unsigned long yasm_intnum_get_uint(const yasm_intnum *intn) { switch (intn->type) { case INTNUM_UL: return intn->val.ul; case INTNUM_BV: return BitVector_Chunk_Read(intn->val.bv, 32, 0); default: yasm_internal_error(N_("unknown intnum type")); /*@notreached@*/ return 0; } } long yasm_intnum_get_int(const yasm_intnum *intn) { switch (intn->type) { case INTNUM_UL: /* unsigned long values are always positive; max out if needed */ return (intn->val.ul & 0x80000000) ? LONG_MAX : (long)intn->val.ul; case INTNUM_BV: if (BitVector_msb_(intn->val.bv)) { /* it's negative: negate the bitvector to get a positive * number, then negate the positive number. */ unsigned long ul; BitVector_Negate(conv_bv, intn->val.bv); if (Set_Max(conv_bv) >= 32) { /* too negative */ return LONG_MIN; } ul = BitVector_Chunk_Read(conv_bv, 32, 0); /* check for too negative */ return (ul & 0x80000000) ? LONG_MIN : -((long)ul); } /* it's positive, and since it's a BV, it must be >0x7FFFFFFF */ return LONG_MAX; default: yasm_internal_error(N_("unknown intnum type")); /*@notreached@*/ return 0; } } void yasm_intnum_get_sized(const yasm_intnum *intn, unsigned char *ptr, size_t destsize, size_t valsize, int shift, int bigendian, int warn, unsigned long line) { wordptr op1 = op1static, op2; unsigned char *buf; unsigned int len; size_t rshift = shift < 0 ? (size_t)(-shift) : 0; int carry_in; /* Currently don't support destinations larger than our native size */ if (destsize*8 > BITVECT_NATIVE_SIZE) yasm_internal_error(N_("destination too large")); /* General size warnings */ if (warn && !yasm_intnum_check_size(intn, valsize, rshift, 2)) yasm__warning(YASM_WARN_GENERAL, line, N_("value does not fit in %d bit field"), valsize); /* Read the original data into a bitvect */ if (bigendian) { /* TODO */ yasm_internal_error(N_("big endian not implemented")); } else BitVector_Block_Store(op1, ptr, destsize); /* If not already a bitvect, convert value to be written to a bitvect */ if (intn->type == INTNUM_BV) op2 = intn->val.bv; else { op2 = op2static; BitVector_Empty(op2); BitVector_Chunk_Store(op2, 32, 0, intn->val.ul); } /* Check low bits if right shifting and warnings enabled */ if (warn && rshift > 0) { BitVector_Copy(conv_bv, op2); BitVector_Move_Left(conv_bv, BITVECT_NATIVE_SIZE-rshift); if (!BitVector_is_empty(conv_bv)) yasm__warning(YASM_WARN_GENERAL, line, N_("misaligned value, truncating to boundary")); } /* Shift right if needed */ if (rshift > 0) { carry_in = BitVector_msb_(op2); while (rshift-- > 0) BitVector_shift_right(op2, carry_in); shift = 0; } /* Write the new value into the destination bitvect */ BitVector_Interval_Copy(op1, op2, (unsigned int)shift, 0, valsize); /* Write out the new data */ buf = BitVector_Block_Read(op1, &len); if (bigendian) { /* TODO */ yasm_internal_error(N_("big endian not implemented")); } else memcpy(ptr, buf, destsize); yasm_xfree(buf); } /* Return 1 if okay size, 0 if not */ int yasm_intnum_check_size(const yasm_intnum *intn, size_t size, size_t rshift, int rangetype) { wordptr val; /* If not already a bitvect, convert value to a bitvect */ if (intn->type == INTNUM_BV) { if (rshift > 0) { val = conv_bv; BitVector_Copy(val, intn->val.bv); } else val = intn->val.bv; } else { val = conv_bv; BitVector_Empty(val); BitVector_Chunk_Store(val, 32, 0, intn->val.ul); } if (size >= BITVECT_NATIVE_SIZE) return 1; if (rshift > 0) { int carry_in = BitVector_msb_(val); while (rshift-- > 0) BitVector_shift_right(val, carry_in); } if (rangetype > 0) { if (BitVector_msb_(val)) { /* it's negative */ int retval; BitVector_Negate(conv_bv, val); BitVector_dec(conv_bv, conv_bv); retval = Set_Max(conv_bv) < (long)size-1; return retval; } if (rangetype == 1) size--; } return (Set_Max(val) < (long)size); } void yasm_intnum_print(const yasm_intnum *intn, FILE *f) { unsigned char *s; switch (intn->type) { case INTNUM_UL: fprintf(f, "0x%lx/%u", intn->val.ul, (unsigned int)intn->origsize); break; case INTNUM_BV: s = BitVector_to_Hex(intn->val.bv); fprintf(f, "0x%s/%u", (char *)s, (unsigned int)intn->origsize); yasm_xfree(s); break; } }