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fuchsia / third_party / yasm / 6749e38a718b9efac1fd4f7218b04649c688cdee / . / libyasm / value.c
blob: 3ab73c1cec113114ff793878bb608b5348e533b8 [file] [log] [blame]
/*
* Value handling
*
* Copyright (C) 2006-2007 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.
*/
#include "util.h"
#include "libyasm-stdint.h"
#include "coretype.h"
#include "bitvect.h"
#include "errwarn.h"
#include "intnum.h"
#include "floatnum.h"
#include "expr.h"
#include "value.h"
#include "symrec.h"
#include "bytecode.h"
#include "section.h"
#include "arch.h"
void
yasm_value_initialize(/*@out@*/ yasm_value *value,
/*@null@*/ /*@kept@*/ yasm_expr *e, unsigned int size)
{
value->abs = e;
value->rel = NULL;
value->wrt = NULL;
value->seg_of = 0;
value->rshift = 0;
value->curpos_rel = 0;
value->ip_rel = 0;
value->jump_target = 0;
value->section_rel = 0;
value->no_warn = 0;
value->sign = 0;
value->size = size;
}
void
yasm_value_init_sym(/*@out@*/ yasm_value *value, /*@null@*/ yasm_symrec *sym,
unsigned int size)
{
value->abs = NULL;
value->rel = sym;
value->wrt = NULL;
value->seg_of = 0;
value->rshift = 0;
value->curpos_rel = 0;
value->ip_rel = 0;
value->jump_target = 0;
value->section_rel = 0;
value->no_warn = 0;
value->sign = 0;
value->size = size;
}
void
yasm_value_init_copy(yasm_value *value, const yasm_value *orig)
{
value->abs = orig->abs ? yasm_expr_copy(orig->abs) : NULL;
value->rel = orig->rel;
value->wrt = orig->wrt;
value->seg_of = orig->seg_of;
value->rshift = orig->rshift;
value->curpos_rel = orig->curpos_rel;
value->ip_rel = orig->ip_rel;
value->jump_target = orig->jump_target;
value->section_rel = orig->section_rel;
value->no_warn = orig->no_warn;
value->sign = orig->sign;
value->size = orig->size;
}
void
yasm_value_delete(yasm_value *value)
{
if (value->abs)
yasm_expr_destroy(value->abs);
value->abs = NULL;
value->rel = NULL;
}
void
yasm_value_set_curpos_rel(yasm_value *value, yasm_bytecode *bc,
unsigned int ip_rel)
{
value->curpos_rel = 1;
value->ip_rel = ip_rel;
/* In order for us to correctly output curpos-relative values, we must
* have a relative portion of the value. If one doesn't exist, point
* to a custom absolute symbol.
*/
if (!value->rel) {
yasm_object *object = yasm_section_get_object(yasm_bc_get_section(bc));
value->rel = yasm_symtab_abs_sym(object->symtab);
}
}
static int
value_finalize_scan(yasm_value *value, yasm_expr *e,
/*@null@*/ yasm_bytecode *expr_precbc, int ssym_not_ok)
{
int i;
/*@dependent@*/ yasm_section *sect;
/*@dependent@*/ /*@null@*/ yasm_bytecode *precbc;
unsigned long shamt; /* for SHR */
/* Yes, this has a maximum upper bound on 32 terms, based on an
* "insane number of terms" (and ease of implementation) WAG.
* The right way to do this would be a stack-based alloca, but that's
* not ISO C. We really don't want to malloc here as this function is
* hit a lot!
*
* This is a bitmask to keep things small, as this is a recursive
* routine and we don't want to eat up stack space.
*/
unsigned long used; /* for ADD */
/* Thanks to this running after a simplify, we don't need to iterate
* down through IDENTs or handle SUB.
*
* We scan for a single symrec, gathering info along the way. After
* we've found the symrec, we keep scanning but error if we find
* another one. We pull out the single symrec and any legal operations
* performed on it.
*
* Also, if we find a float anywhere, we don't allow mixing of a single
* symrec with it.
*/
switch (e->op) {
case YASM_EXPR_ADD:
/* Okay for single symrec anywhere in expr.
* Check for single symrec anywhere.
* Handle symrec-symrec by checking for (-1*symrec)
* and symrec term pairs (where both symrecs are in the same
* segment).
*/
if (e->numterms > 32)
yasm__fatal(N_("expression on line %d has too many add terms;"
" internal limit of 32"), e->line);
used = 0;
for (i=0; i<e->numterms; i++) {
int j;
yasm_expr *sube;
yasm_intnum *intn;
yasm_symrec *sym;
/*@dependent@*/ yasm_section *sect2;
/*@dependent@*/ /*@null@*/ yasm_bytecode *precbc2;
/* First look for an (-1*symrec) term */
if (e->terms[i].type != YASM_EXPR_EXPR)
continue;
sube = e->terms[i].data.expn;
if (sube->op != YASM_EXPR_MUL || sube->numterms != 2) {
/* recurse instead */
if (value_finalize_scan(value, sube, expr_precbc,
ssym_not_ok))
return 1;
continue;
}
if (sube->terms[0].type == YASM_EXPR_INT &&
sube->terms[1].type == YASM_EXPR_SYM) {
intn = sube->terms[0].data.intn;
sym = sube->terms[1].data.sym;
} else if (sube->terms[0].type == YASM_EXPR_SYM &&
sube->terms[1].type == YASM_EXPR_INT) {
sym = sube->terms[0].data.sym;
intn = sube->terms[1].data.intn;
} else {
if (value_finalize_scan(value, sube, expr_precbc,
ssym_not_ok))
return 1;
continue;
}
if (!yasm_intnum_is_neg1(intn)) {
if (value_finalize_scan(value, sube, expr_precbc,
ssym_not_ok))
return 1;
continue;
}
/* Look for the same symrec term; even if both are external,
* they should cancel out.
*/
for (j=0; j<e->numterms; j++) {
if (e->terms[j].type == YASM_EXPR_SYM
&& e->terms[j].data.sym == sym
&& (used & (1<<j)) == 0) {
/* Mark as used */
used |= 1<<j;
/* Replace both symrec portions with 0 */
yasm_expr_destroy(sube);
e->terms[i].type = YASM_EXPR_INT;
e->terms[i].data.intn = yasm_intnum_create_uint(0);
e->terms[j].type = YASM_EXPR_INT;
e->terms[j].data.intn = yasm_intnum_create_uint(0);
break; /* stop looking */
}
}
if (j != e->numterms)
continue;
if (!yasm_symrec_get_label(sym, &precbc)) {
if (value_finalize_scan(value, sube, expr_precbc,
ssym_not_ok))
return 1;
continue;
}
sect2 = yasm_bc_get_section(precbc);
/* Now look for a unused symrec term in the same segment */
for (j=0; j<e->numterms; j++) {
if (e->terms[j].type == YASM_EXPR_SYM
&& yasm_symrec_get_label(e->terms[j].data.sym,
&precbc2)
&& (sect = yasm_bc_get_section(precbc2))
&& sect == sect2
&& (used & (1<<j)) == 0) {
/* Mark as used */
used |= 1<<j;
break; /* stop looking */
}
}
/* We didn't match in the same segment. If the
* -1*symrec is actually -1*curpos, we can match
* unused symrec terms in other segments and generate
* a curpos-relative reloc.
*
* Similarly, handle -1*symrec in other segment via the
* following transformation:
* other-this = (other-.)+(.-this)
* We can only do this transformation if "this" is in
* this expr's segment.
*
* Don't do this if we've already become curpos-relative.
* The unmatched symrec will be caught below.
*/
if (j == e->numterms && !value->curpos_rel
&& (yasm_symrec_is_curpos(sym)
|| (expr_precbc
&& sect2 == yasm_bc_get_section(expr_precbc)))) {
for (j=0; j<e->numterms; j++) {
if (e->terms[j].type == YASM_EXPR_SYM
&& !yasm_symrec_get_equ(e->terms[j].data.sym)
&& !yasm_symrec_is_special(e->terms[j].data.sym)
&& (used & (1<<j)) == 0) {
/* Mark as used */
used |= 1<<j;
/* Mark value as curpos-relative */
if (value->rel || ssym_not_ok)
return 1;
value->rel = e->terms[j].data.sym;
value->curpos_rel = 1;
if (yasm_symrec_is_curpos(sym)) {
/* Replace both symrec portions with 0 */
yasm_expr_destroy(sube);
e->terms[i].type = YASM_EXPR_INT;
e->terms[i].data.intn =
yasm_intnum_create_uint(0);
e->terms[j].type = YASM_EXPR_INT;
e->terms[j].data.intn =
yasm_intnum_create_uint(0);
} else {
/* Replace positive portion with curpos */
yasm_object *object =
yasm_section_get_object(sect2);
yasm_symtab *symtab = object->symtab;
e->terms[j].data.sym =
yasm_symtab_define_curpos
(symtab, ".", expr_precbc, e->line);
}
break; /* stop looking */
}
}
}
if (j == e->numterms)
return 1; /* We didn't find a match! */
}
/* Look for unmatched symrecs. If we've already found one or
* we don't WANT to find one, error out.
*/
for (i=0; i<e->numterms; i++) {
if (e->terms[i].type == YASM_EXPR_SYM
&& (used & (1<<i)) == 0) {
if (value->rel || ssym_not_ok)
return 1;
value->rel = e->terms[i].data.sym;
/* and replace with 0 */
e->terms[i].type = YASM_EXPR_INT;
e->terms[i].data.intn = yasm_intnum_create_uint(0);
}
}
break;
case YASM_EXPR_SHR:
/* Okay for single symrec in LHS and constant on RHS.
* Single symrecs are not okay on RHS.
* If RHS is non-constant, don't allow single symrec on LHS.
* XXX: should rshift be an expr instead??
*/
/* Check for single sym on LHS */
if (e->terms[0].type != YASM_EXPR_SYM)
break;
/* If we already have a sym, we can't take another one */
if (value->rel || ssym_not_ok)
return 1;
/* RHS must be a positive integer */
if (e->terms[1].type != YASM_EXPR_INT)
return 1; /* can't shift sym by non-constant integer */
shamt = yasm_intnum_get_uint(e->terms[1].data.intn);
if ((shamt + value->rshift) > YASM_VALUE_RSHIFT_MAX)
return 1; /* total shift would be too large */
/* Update value */
value->rshift += shamt;
value->rel = e->terms[0].data.sym;
/* Replace symbol with 0 */
e->terms[0].type = YASM_EXPR_INT;
e->terms[0].data.intn = yasm_intnum_create_uint(0);
/* Just leave SHR in place */
break;
case YASM_EXPR_SEG:
/* Okay for single symrec (can only be done once).
* Not okay for anything BUT a single symrec as an immediate
* child.
*/
if (e->terms[0].type != YASM_EXPR_SYM)
return 1;
if (value->seg_of)
return 1; /* multiple SEG not legal */
value->seg_of = 1;
if (value->rel || ssym_not_ok)
return 1; /* got a relative portion somewhere else? */
value->rel = e->terms[0].data.sym;
/* replace with ident'ed 0 */
e->op = YASM_EXPR_IDENT;
e->terms[0].type = YASM_EXPR_INT;
e->terms[0].data.intn = yasm_intnum_create_uint(0);
break;
case YASM_EXPR_WRT:
/* Okay for single symrec in LHS and either a register or single
* symrec (as an immediate child) on RHS.
* If a single symrec on RHS, can only be done once.
* WRT reg is left in expr for arch to look at.
*/
/* Handle RHS */
switch (e->terms[1].type) {
case YASM_EXPR_SYM:
if (value->wrt)
return 1;
value->wrt = e->terms[1].data.sym;
/* and drop the WRT portion */
e->op = YASM_EXPR_IDENT;
e->numterms = 1;
break;
case YASM_EXPR_REG:
break; /* ignore */
default:
return 1;
}
/* Handle LHS */
switch (e->terms[0].type) {
case YASM_EXPR_SYM:
if (value->rel || ssym_not_ok)
return 1;
value->rel = e->terms[0].data.sym;
/* and replace with 0 */
e->terms[0].type = YASM_EXPR_INT;
e->terms[0].data.intn = yasm_intnum_create_uint(0);
break;
case YASM_EXPR_EXPR:
/* recurse */
return value_finalize_scan(value, e->terms[0].data.expn,
expr_precbc, ssym_not_ok);
default:
break; /* ignore */
}
break;
default:
/* Single symrec not allowed anywhere */
for (i=0; i<e->numterms; i++) {
switch (e->terms[i].type) {
case YASM_EXPR_SYM:
return 1;
case YASM_EXPR_EXPR:
/* recurse */
return value_finalize_scan(value,
e->terms[i].data.expn,
expr_precbc, 1);
default:
break;
}
}
break;
}
return 0;
}
int
yasm_value_finalize_expr(yasm_value *value, yasm_expr *e,
yasm_bytecode *precbc, unsigned int size)
{
if (!e) {
yasm_value_initialize(value, NULL, size);
return 0;
}
yasm_value_initialize(value, e, size);
return yasm_value_finalize(value, precbc);
}
int
yasm_value_finalize(yasm_value *value, yasm_bytecode *precbc)
{
if (!value->abs)
return 0;
value->abs = yasm_expr__level_tree(value->abs, 1, 1, 0, 0, NULL, NULL);
/* quit early if there was an issue in simplify() */
if (yasm_error_occurred())
return 1;
/* Strip top-level AND masking to an all-1s mask the same size
* of the value size. This allows forced avoidance of overflow warnings.
*/
if (value->abs->op == YASM_EXPR_AND) {
int term;
/* Calculate 1<<size - 1 value */
yasm_intnum *mask = yasm_intnum_create_uint(1);
yasm_intnum *mask_tmp = yasm_intnum_create_uint(value->size);
yasm_intnum_calc(mask, YASM_EXPR_SHL, mask_tmp);
yasm_intnum_set_uint(mask_tmp, 1);
yasm_intnum_calc(mask, YASM_EXPR_SUB, mask_tmp);
yasm_intnum_destroy(mask_tmp);
/* Walk terms and delete matching masks */
for (term=value->abs->numterms-1; term>=0; term--) {
if (value->abs->terms[term].type == YASM_EXPR_INT &&
yasm_intnum_compare(value->abs->terms[term].data.intn,
mask) == 0) {
/* Delete the intnum */
yasm_intnum_destroy(value->abs->terms[term].data.intn);
/* Slide everything to its right over by 1 */
if (term != value->abs->numterms-1) /* if it wasn't last.. */
memmove(&value->abs->terms[term],
&value->abs->terms[term+1],
(value->abs->numterms-1-term)*
sizeof(yasm_expr__item));
/* Update numterms */
value->abs->numterms--;
/* Indicate warnings have been disabled */
value->no_warn = 1;
}
}
if (value->abs->numterms == 1)
value->abs->op = YASM_EXPR_IDENT;
yasm_intnum_destroy(mask);
}
/* Handle trivial (IDENT) cases immediately */
if (value->abs->op == YASM_EXPR_IDENT) {
switch (value->abs->terms[0].type) {
case YASM_EXPR_INT:
if (yasm_intnum_is_zero(value->abs->terms[0].data.intn)) {
yasm_expr_destroy(value->abs);
value->abs = NULL;
}
return 0;
case YASM_EXPR_REG:
case YASM_EXPR_FLOAT:
return 0;
case YASM_EXPR_SYM:
value->rel = value->abs->terms[0].data.sym;
yasm_expr_destroy(value->abs);
value->abs = NULL;
return 0;
case YASM_EXPR_EXPR:
/* Bring up lower values. */
while (value->abs->op == YASM_EXPR_IDENT
&& value->abs->terms[0].type == YASM_EXPR_EXPR) {
yasm_expr *sube = value->abs->terms[0].data.expn;
yasm_xfree(value->abs);
value->abs = sube;
}
break;
default:
yasm_internal_error(N_("unexpected expr term type"));
}
}
if (value_finalize_scan(value, value->abs, precbc, 0))
return 1;
value->abs = yasm_expr__level_tree(value->abs, 1, 1, 0, 0, NULL, NULL);
/* Simplify 0 in abs to NULL */
if (value->abs->op == YASM_EXPR_IDENT
&& value->abs->terms[0].type == YASM_EXPR_INT
&& yasm_intnum_is_zero(value->abs->terms[0].data.intn)) {
yasm_expr_destroy(value->abs);
value->abs = NULL;
}
return 0;
}
yasm_intnum *
yasm_value_get_intnum(yasm_value *value, yasm_bytecode *bc, int calc_bc_dist)
{
/*@dependent@*/ /*@null@*/ yasm_intnum *intn = NULL;
/*@only@*/ yasm_intnum *outval;
int sym_local;
if (value->abs) {
/* Handle integer expressions, if non-integer or too complex, return
* NULL.
*/
intn = yasm_expr_get_intnum(&value->abs, calc_bc_dist);
if (!intn)
return NULL;
}
if (value->rel) {
/* If relative portion is not in bc section, return NULL.
* Otherwise get the relative portion's offset.
*/
/*@dependent@*/ yasm_bytecode *rel_prevbc;
unsigned long dist;
if (!bc)
return NULL; /* Can't calculate relative value */
sym_local = yasm_symrec_get_label(value->rel, &rel_prevbc);
if (value->wrt || value->seg_of || value->section_rel || !sym_local)
return NULL; /* we can't handle SEG, WRT, or external symbols */
if (rel_prevbc->section != bc->section)
return NULL; /* not in this section */
if (!value->curpos_rel)
return NULL; /* not PC-relative */
/* Calculate value relative to current assembly position */
dist = yasm_bc_next_offset(rel_prevbc);
if (dist < bc->offset) {
outval = yasm_intnum_create_uint(bc->offset - dist);
yasm_intnum_calc(outval, YASM_EXPR_NEG, NULL);
} else {
dist -= bc->offset;
outval = yasm_intnum_create_uint(dist);
}
if (value->rshift > 0) {
/*@only@*/ yasm_intnum *shamt =
yasm_intnum_create_uint((unsigned long)value->rshift);
yasm_intnum_calc(outval, YASM_EXPR_SHR, shamt);
yasm_intnum_destroy(shamt);
}
/* Add in absolute portion */
if (intn)
yasm_intnum_calc(outval, YASM_EXPR_ADD, intn);
return outval;
}
if (intn)
return yasm_intnum_copy(intn);
/* No absolute or relative portions: output 0 */
return yasm_intnum_create_uint(0);
}
int
yasm_value_output_basic(yasm_value *value, /*@out@*/ unsigned char *buf,
size_t destsize, yasm_bytecode *bc, int warn,
yasm_arch *arch)
{
/*@dependent@*/ /*@null@*/ yasm_intnum *intn = NULL;
/*@only@*/ yasm_intnum *outval;
int sym_local;
int retval = 1;
unsigned int valsize = value->size;
if (value->no_warn)
warn = 0;
if (value->abs) {
/* Handle floating point expressions */
if (!value->rel && value->abs->op == YASM_EXPR_IDENT
&& value->abs->terms[0].type == YASM_EXPR_FLOAT) {
if (yasm_arch_floatnum_tobytes(arch, value->abs->terms[0].data.flt,
buf, destsize, valsize, 0, warn))
return -1;
else
return 1;
}
/* Check for complex float expressions */
if (yasm_expr__contains(value->abs, YASM_EXPR_FLOAT)) {
yasm_error_set(YASM_ERROR_FLOATING_POINT,
N_("floating point expression too complex"));
return -1;
}
/* Handle normal integer expressions */
intn = yasm_expr_get_intnum(&value->abs, 1);
if (!intn) {
/* Second try before erroring: yasm_expr_get_intnum doesn't handle
* SEG:OFF, so try simplifying out any to just the OFF portion,
* then getting the intnum again.
*/
yasm_expr *seg = yasm_expr_extract_deep_segoff(&value->abs);
if (seg)
yasm_expr_destroy(seg);
intn = yasm_expr_get_intnum(&value->abs, 1);
}
if (!intn) {
/* Still don't have an integer! */
yasm_error_set(YASM_ERROR_TOO_COMPLEX,
N_("expression too complex"));
return -1;
}
}
/* Adjust warn for signed/unsigned integer warnings */
if (warn != 0)
warn = value->sign ? -1 : 1;
if (value->rel) {
/* If relative portion is not in bc section, don't try to handle it
* here. Otherwise get the relative portion's offset.
*/
/*@dependent@*/ yasm_bytecode *rel_prevbc;
unsigned long dist;
sym_local = yasm_symrec_get_label(value->rel, &rel_prevbc);
if (value->wrt || value->seg_of || value->section_rel || !sym_local)
return 0; /* we can't handle SEG, WRT, or external symbols */
if (rel_prevbc->section != bc->section)
return 0; /* not in this section */
if (!value->curpos_rel)
return 0; /* not PC-relative */
/* Calculate value relative to current assembly position */
dist = yasm_bc_next_offset(rel_prevbc);
if (dist < bc->offset) {
outval = yasm_intnum_create_uint(bc->offset - dist);
yasm_intnum_calc(outval, YASM_EXPR_NEG, NULL);
} else {
dist -= bc->offset;
outval = yasm_intnum_create_uint(dist);
}
if (value->rshift > 0) {
/*@only@*/ yasm_intnum *shamt =
yasm_intnum_create_uint((unsigned long)value->rshift);
yasm_intnum_calc(outval, YASM_EXPR_SHR, shamt);
yasm_intnum_destroy(shamt);
}
/* Add in absolute portion */
if (intn)
yasm_intnum_calc(outval, YASM_EXPR_ADD, intn);
/* Output! */
if (yasm_arch_intnum_tobytes(arch, outval, buf, destsize, valsize, 0,
bc, warn))
retval = -1;
yasm_intnum_destroy(outval);
return retval;
}
if (value->seg_of || value->rshift || value->curpos_rel || value->ip_rel
|| value->section_rel)
return 0; /* We can't handle this with just an absolute */
if (intn) {
/* Output just absolute portion */
if (yasm_arch_intnum_tobytes(arch, intn, buf, destsize, valsize, 0, bc,
warn))
retval = -1;
} else {
/* No absolute or relative portions: output 0 */
outval = yasm_intnum_create_uint(0);
if (yasm_arch_intnum_tobytes(arch, outval, buf, destsize, valsize, 0,
bc, warn))
retval = -1;
yasm_intnum_destroy(outval);
}
return retval;
}
void
yasm_value_print(const yasm_value *value, FILE *f, int indent_level)
{
fprintf(f, "%*s%u-bit, %ssigned", indent_level, "", value->size,
value->sign ? "" : "un");
fprintf(f, "%*sAbsolute portion=", indent_level, "");
yasm_expr_print(value->abs, f);
fprintf(f, "\n");
if (value->rel) {
fprintf(f, "%*sRelative to=%s%s\n", indent_level, "",
value->seg_of ? "SEG " : "",
yasm_symrec_get_name(value->rel));
if (value->wrt)
fprintf(f, "%*s(With respect to=%s)\n", indent_level, "",
yasm_symrec_get_name(value->wrt));
if (value->rshift > 0)
fprintf(f, "%*s(Right shifted by=%u)\n", indent_level, "",
value->rshift);
if (value->curpos_rel)
fprintf(f, "%*s(Relative to current position)\n", indent_level,
"");
if (value->ip_rel)
fprintf(f, "%*s(IP-relative)\n", indent_level, "");
if (value->jump_target)
fprintf(f, "%*s(Jump target)\n", indent_level, "");
if (value->section_rel)
fprintf(f, "%*s(Section-relative)\n", indent_level, "");
if (value->no_warn)
fprintf(f, "%*s(Overflow warnings disabled)\n", indent_level, "");
}
}