Yasm Assembler mainline development tree (ffmpeg 依赖)
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/*
* 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("$IdPath$");
#include <ctype.h>
#include "coretype.h"
#include "bitvect.h"
#include "file.h"
#include "errwarn.h"
#include "intnum.h"
#define BITVECT_ALLOC_SIZE 80
struct yasm_intnum {
union val {
unsigned long ul; /* integer value (for integers <=32 bits) */
intptr 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;
void
yasm_intnum_initialize(void)
{
conv_bv = BitVector_Create(BITVECT_ALLOC_SIZE, FALSE);
BitVector_from_Dec_static_Boot(BITVECT_ALLOC_SIZE);
}
void
yasm_intnum_cleanup(void)
{
BitVector_Destroy(conv_bv);
BitVector_from_Dec_static_Shutdown();
}
yasm_intnum *
yasm_intnum_new_dec(char *str, unsigned long lindex)
{
yasm_intnum *intn = yasm_xmalloc(sizeof(yasm_intnum));
intn->origsize = 0; /* no reliable way to figure this out */
if (BitVector_from_Dec_static(conv_bv,
(unsigned char *)str) == ErrCode_Ovfl)
yasm__warning(YASM_WARN_GENERAL, lindex,
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_new_bin(char *str, unsigned long lindex)
{
yasm_intnum *intn = yasm_xmalloc(sizeof(yasm_intnum));
intn->origsize = (unsigned char)strlen(str);
if(intn->origsize > BITVECT_ALLOC_SIZE)
yasm__warning(YASM_WARN_GENERAL, lindex,
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_new_oct(char *str, unsigned long lindex)
{
yasm_intnum *intn = yasm_xmalloc(sizeof(yasm_intnum));
intn->origsize = strlen(str)*3;
if(intn->origsize > BITVECT_ALLOC_SIZE)
yasm__warning(YASM_WARN_GENERAL, lindex,
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_new_hex(char *str, unsigned long lindex)
{
yasm_intnum *intn = yasm_xmalloc(sizeof(yasm_intnum));
intn->origsize = strlen(str)*4;
if(intn->origsize > BITVECT_ALLOC_SIZE)
yasm__warning(YASM_WARN_GENERAL, lindex,
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_new_charconst_nasm(const char *str, unsigned long lindex)
{
yasm_intnum *intn = yasm_xmalloc(sizeof(yasm_intnum));
size_t len = strlen(str);
if (len > 4)
yasm__warning(YASM_WARN_GENERAL, lindex,
N_("character constant too large, ignoring trailing characters"));
intn->val.ul = 0;
intn->type = INTNUM_UL;
intn->origsize = len*8;
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];
}
return intn;
}
/*@=usedef =compdef =uniondef@*/
yasm_intnum *
yasm_intnum_new_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_new_int(long i)
{
/* FIXME: Better way of handling signed numbers? */
return yasm_intnum_new_uint((unsigned long)i);
}
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_delete(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 lindex)
{
wordptr result = (wordptr)NULL, op1 = (wordptr)NULL, op2 = (wordptr)NULL;
wordptr spare = (wordptr)NULL;
boolean carry = 0;
/* upsize to bitvector op if one of two parameters is bitvector already.
* BitVector results must be calculated through intermediate storage.
*/
if (acc->type == INTNUM_BV || (operand && operand->type == INTNUM_BV)) {
result = BitVector_Create(BITVECT_ALLOC_SIZE, FALSE);
spare = BitVector_Create(BITVECT_ALLOC_SIZE, FALSE);
if (acc->type == INTNUM_BV)
op1 = acc->val.bv;
else {
op1 = BitVector_Create(BITVECT_ALLOC_SIZE, TRUE);
BitVector_Chunk_Store(op1, 32, 0, acc->val.ul);
}
if (operand) {
if (operand->type == INTNUM_BV)
op2 = operand->val.bv;
else {
op2 = BitVector_Create(BITVECT_ALLOC_SIZE, TRUE);
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:
if (result)
BitVector_add(result, op1, op2, &carry);
else
acc->val.ul = acc->val.ul + operand->val.ul;
break;
case YASM_EXPR_SUB:
if (result)
BitVector_sub(result, op1, op2, &carry);
else
acc->val.ul = acc->val.ul - operand->val.ul;
break;
case YASM_EXPR_MUL:
if (result)
/* TODO: Make sure result size = op1+op2 */
BitVector_Multiply(result, op1, op2);
else
acc->val.ul = acc->val.ul * operand->val.ul;
break;
case YASM_EXPR_DIV:
if (result) {
/* TODO: make sure op1 and op2 are unsigned */
BitVector_Divide(result, op1, op2, spare);
} else
acc->val.ul = acc->val.ul / operand->val.ul;
break;
case YASM_EXPR_SIGNDIV:
if (result)
BitVector_Divide(result, op1, op2, spare);
else
acc->val.ul = (unsigned long)((signed long)acc->val.ul /
(signed long)operand->val.ul);
break;
case YASM_EXPR_MOD:
if (result) {
/* TODO: make sure op1 and op2 are unsigned */
BitVector_Divide(spare, op1, op2, result);
} else
acc->val.ul = acc->val.ul % operand->val.ul;
break;
case YASM_EXPR_SIGNMOD:
if (result)
BitVector_Divide(spare, op1, op2, result);
else
acc->val.ul = (unsigned long)((signed long)acc->val.ul %
(signed long)operand->val.ul);
break;
case YASM_EXPR_NEG:
if (result)
BitVector_Negate(result, op1);
else
acc->val.ul = -(acc->val.ul);
break;
case YASM_EXPR_NOT:
if (result)
Set_Complement(result, op1);
else
acc->val.ul = ~(acc->val.ul);
break;
case YASM_EXPR_OR:
if (result)
Set_Union(result, op1, op2);
else
acc->val.ul = acc->val.ul | operand->val.ul;
break;
case YASM_EXPR_AND:
if (result)
Set_Intersection(result, op1, op2);
else
acc->val.ul = acc->val.ul & operand->val.ul;
break;
case YASM_EXPR_XOR:
if (result)
Set_ExclusiveOr(result, op1, op2);
else
acc->val.ul = acc->val.ul ^ operand->val.ul;
break;
case YASM_EXPR_SHL:
if (result) {
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);
} else
acc->val.ul = acc->val.ul << operand->val.ul;
break;
case YASM_EXPR_SHR:
if (result) {
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);
} else
acc->val.ul = acc->val.ul >> operand->val.ul;
break;
case YASM_EXPR_LOR:
if (result) {
BitVector_Empty(result);
BitVector_LSB(result, !BitVector_is_empty(op1) ||
!BitVector_is_empty(op2));
} else
acc->val.ul = acc->val.ul || operand->val.ul;
break;
case YASM_EXPR_LAND:
if (result) {
BitVector_Empty(result);
BitVector_LSB(result, !BitVector_is_empty(op1) &&
!BitVector_is_empty(op2));
} else
acc->val.ul = acc->val.ul && operand->val.ul;
break;
case YASM_EXPR_LNOT:
if (result) {
BitVector_Empty(result);
BitVector_LSB(result, BitVector_is_empty(op1));
} else
acc->val.ul = !acc->val.ul;
break;
case YASM_EXPR_EQ:
if (result) {
BitVector_Empty(result);
BitVector_LSB(result, BitVector_equal(op1, op2));
} else
acc->val.ul = acc->val.ul == operand->val.ul;
break;
case YASM_EXPR_LT:
if (result) {
BitVector_Empty(result);
BitVector_LSB(result, BitVector_Lexicompare(op1, op2) < 0);
} else
acc->val.ul = acc->val.ul < operand->val.ul;
break;
case YASM_EXPR_GT:
if (result) {
BitVector_Empty(result);
BitVector_LSB(result, BitVector_Lexicompare(op1, op2) > 0);
} else
acc->val.ul = acc->val.ul > operand->val.ul;
break;
case YASM_EXPR_LE:
if (result) {
BitVector_Empty(result);
BitVector_LSB(result, BitVector_Lexicompare(op1, op2) <= 0);
} else
acc->val.ul = acc->val.ul <= operand->val.ul;
break;
case YASM_EXPR_GE:
if (result) {
BitVector_Empty(result);
BitVector_LSB(result, BitVector_Lexicompare(op1, op2) >= 0);
} else
acc->val.ul = acc->val.ul >= operand->val.ul;
break;
case YASM_EXPR_NE:
if (result) {
BitVector_Empty(result);
BitVector_LSB(result, !BitVector_equal(op1, op2));
} else
acc->val.ul = acc->val.ul != operand->val.ul;
break;
case YASM_EXPR_SEG:
yasm__error(lindex, N_("invalid use of '%s'"), "SEG");
break;
case YASM_EXPR_WRT:
yasm__error(lindex, N_("invalid use of '%s'"), "WRT");
break;
case YASM_EXPR_SEGOFF:
yasm__error(lindex, 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"));
}
/* If we were doing a bitvector computation... */
if (result) {
BitVector_Destroy(spare);
if (op1 && acc->type != INTNUM_BV)
BitVector_Destroy(op1);
if (op2 && operand && operand->type != INTNUM_BV)
BitVector_Destroy(op2);
/* 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);
BitVector_Destroy(result);
} else {
if (acc->type == INTNUM_BV) {
BitVector_Copy(acc->val.bv, result);
BitVector_Destroy(result);
} else {
acc->type = INTNUM_BV;
acc->val.bv = result;
}
}
}
}
/*@=nullderef =nullpass =branchstate@*/
int
yasm_intnum_is_zero(yasm_intnum *intn)
{
return ((intn->type == INTNUM_UL && intn->val.ul == 0) ||
(intn->type == INTNUM_BV && BitVector_is_empty(intn->val.bv)));
}
int
yasm_intnum_is_pos1(yasm_intnum *intn)
{
return ((intn->type == INTNUM_UL && intn->val.ul == 1) ||
(intn->type == INTNUM_BV && Set_Max(intn->val.bv) == 0));
}
int
yasm_intnum_is_neg1(yasm_intnum *intn)
{
return ((intn->type == INTNUM_UL && (long)intn->val.ul == -1) ||
(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:
return (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.
*/
intptr abs_bv = BitVector_Create(BITVECT_ALLOC_SIZE, FALSE);
long retval;
BitVector_Negate(abs_bv, intn->val.bv);
retval = -((long)BitVector_Chunk_Read(abs_bv, 32, 0));
BitVector_Destroy(abs_bv);
return retval;
} else
return (long)BitVector_Chunk_Read(intn->val.bv, 32, 0);
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 size)
{
unsigned long ul;
unsigned char *buf;
unsigned int len;
switch (intn->type) {
case INTNUM_UL:
ul = intn->val.ul;
while (size-- > 0) {
YASM_WRITE_8(ptr, ul);
if (ul != 0)
ul >>= 8;
}
break;
case INTNUM_BV:
buf = BitVector_Block_Read(intn->val.bv, &len);
if (len < (unsigned int)size)
yasm_internal_error(N_("Invalid size specified (too large)"));
memcpy(ptr, buf, size);
yasm_xfree(buf);
break;
}
}
/* Return 1 if okay size, 0 if not */
int
yasm_intnum_check_size(const yasm_intnum *intn, size_t size, int is_signed)
{
if (is_signed) {
long absl;
switch (intn->type) {
case INTNUM_UL:
if (size >= 4)
return 1;
/* absl = absolute value of (long)intn->val.ul */
absl = (long)intn->val.ul;
if (absl < 0)
absl = -absl;
switch (size) {
case 3:
return ((absl & 0x00FFFFFF) == absl);
case 2:
return ((absl & 0x0000FFFF) == absl);
case 1:
return ((absl & 0x000000FF) == absl);
}
break;
case INTNUM_BV:
if (size >= 10)
return 1;
if (BitVector_msb_(intn->val.bv)) {
/* it's negative */
intptr abs_bv = BitVector_Create(BITVECT_ALLOC_SIZE,
FALSE);
int retval;
BitVector_Negate(abs_bv, intn->val.bv);
retval = Set_Max(abs_bv) < (long)(size*8);
BitVector_Destroy(abs_bv);
return retval;
} else
return (Set_Max(intn->val.bv) < (long)(size*8));
}
} else {
switch (intn->type) {
case INTNUM_UL:
if (size >= 4)
return 1;
switch (size) {
case 3:
return ((intn->val.ul & 0x00FFFFFF) == intn->val.ul);
case 2:
return ((intn->val.ul & 0x0000FFFF) == intn->val.ul);
case 1:
return ((intn->val.ul & 0x000000FF) == intn->val.ul);
}
break;
case INTNUM_BV:
if (size >= 10)
return 1;
else
return (Set_Max(intn->val.bv) < (long)(size*8));
}
}
return 0;
}
void
yasm_intnum_print(FILE *f, const yasm_intnum *intn)
{
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;
}
}