{
/* After md_end, you should be checking frag by frag, rather
than state directives. */
- assert (!past_xtensa_end);
+ gas_assert (!past_xtensa_end);
return directive_state[directive_transform];
}
/* Do not use this function after md_end; just look at align_targets
instead. There is no target-align directive, so alignment is either
enabled for all frags or not done at all. */
- assert (!past_xtensa_end);
+ gas_assert (!past_xtensa_end);
return align_targets && use_transform ();
}
/* Allocate the literal state for this section and push
onto the directive stack. */
ls = xmalloc (sizeof (lit_state));
- assert (ls);
+ gas_assert (ls);
*ls = default_lit_sections;
directive_push (directive_literal_prefix, negated, ls);
case directive_literal_prefix:
/* Restore the default collection sections from saved state. */
s = (lit_state *) state;
- assert (s);
+ gas_assert (s);
default_lit_sections = *s;
/* Free the state storage. */
/* Get a null-terminated copy of the name. */
name = xmalloc (len + 1);
- assert (name);
+ gas_assert (name);
strncpy (name, input_line_pointer, len);
name[len] = 0;
break;
}
}
- assert (operator != (unsigned char) -1);
+ gas_assert (operator != (unsigned char) -1);
return operator;
}
if (t == absolute_section
&& xtensa_operand_is_PCrelative (isa, opc, opnd) == 1)
{
- assert (tok->X_op == O_constant);
+ gas_assert (tok->X_op == O_constant);
tok->X_op = O_symbol;
tok->X_add_symbol = &abs_symbol;
}
input_line_pointer++;
if (num_regs == 0)
goto err;
- assert (opnd_cnt > 0);
+ gas_assert (opnd_cnt > 0);
num_regs--;
opnd_rf = xtensa_operand_regfile (isa, opcode, last_opnd_cnt);
if (next_reg
as_warn (_("too many arguments"));
goto err;
}
- assert (opnd_cnt < MAX_INSN_ARGS);
+ gas_assert (opnd_cnt < MAX_INSN_ARGS);
expression_maybe_register (opcode, opnd_cnt, tok);
next_reg = tok->X_add_number + 1;
offsetT val;
opname = *popname;
- assert (opname[0] != '_');
+ gas_assert (opname[0] != '_');
if (strcmp (opname, old_op) != 0)
return 0;
{
case OP_CONSTANT:
/* The expression must be the constant. */
- assert (cond->op_num < insn->ntok);
+ gas_assert (cond->op_num < insn->ntok);
exp1 = &insn->tok[cond->op_num];
if (expr_is_const (exp1))
{
break;
case OP_OPERAND:
- assert (cond->op_num < insn->ntok);
- assert (cond->op_data < insn->ntok);
+ gas_assert (cond->op_num < insn->ntok);
+ gas_assert (cond->op_data < insn->ntok);
exp1 = &insn->tok[cond->op_num];
exp2 = &insn->tok[cond->op_data];
{
TransitionTable *table = xg_build_simplify_table (&transition_rule_cmp);
TransitionList *l;
- assert (insn->opcode < table->num_opcodes);
+ gas_assert (insn->opcode < table->num_opcodes);
/* Walk through all of the possible transitions. */
for (l = table->table[insn->opcode]; l != NULL; l = l->next)
TransitionList *l;
TransitionRule *match = 0;
- assert (insn->insn_type == ITYPE_INSN);
- assert (insn->opcode < table->num_opcodes);
+ gas_assert (insn->insn_type == ITYPE_INSN);
+ gas_assert (insn->opcode < table->num_opcodes);
for (l = table->table[insn->opcode]; l != NULL; l = l->next)
{
TransitionList *l;
int max_size = xg_get_single_size (opcode);
- assert (opcode < table->num_opcodes);
+ gas_assert (opcode < table->num_opcodes);
for (l = table->table[opcode]; l != NULL; l = l->next)
{
build_list = rule->to_instr;
if (is_unique_insn_expansion (rule))
{
- assert (build_list->typ == INSTR_INSTR);
+ gas_assert (build_list->typ == INSTR_INSTR);
this_size = xg_get_max_insn_widen_size (build_list->opcode);
}
else
TransitionList *l;
int max_size = 0;
- assert (opcode < table->num_opcodes);
+ gas_assert (opcode < table->num_opcodes);
for (l = table->table[opcode]; l != NULL; l = l->next)
{
build_list = rule->to_instr;
if (is_unique_insn_expansion (rule))
{
- assert (build_list->typ == INSTR_INSTR);
+ gas_assert (build_list->typ == INSTR_INSTR);
this_size = xg_get_max_insn_widen_literal_size (build_list->opcode);
}
else
TransitionTable *table = xg_build_widen_table (&transition_rule_cmp);
TransitionList *l;
- assert (insn->insn_type == ITYPE_INSN);
- assert (insn->opcode < table->num_opcodes);
+ gas_assert (insn->insn_type == ITYPE_INSN);
+ gas_assert (insn->opcode < table->num_opcodes);
for (l = table->table[insn->opcode]; l != NULL; l = l->next)
{
int i;
int n = insn->ntok;
- assert (insn->insn_type == ITYPE_INSN);
+ gas_assert (insn->insn_type == ITYPE_INSN);
for (i = 0; i < n; ++i)
{
const expressionS *expr = &insn->tok[i];
default:
/* The symbol should have a fixup associated with it. */
- assert (FALSE);
+ gas_assert (FALSE);
break;
}
}
int i;
int n = insn->ntok;
- assert (insn->insn_type == ITYPE_INSN);
+ gas_assert (insn->insn_type == ITYPE_INSN);
for (i = 0; i < n; ++i)
{
int op_num = op->op_num;
int op_data = op->op_data;
- assert (op->op_num < MAX_INSN_ARGS);
+ gas_assert (op->op_num < MAX_INSN_ARGS);
if (targ->ntok <= op_num)
targ->ntok = op_num + 1;
set_expr_const (&targ->tok[op_num], op_data);
break;
case OP_OPERAND:
- assert (op_data < insn->ntok);
+ gas_assert (op_data < insn->ntok);
copy_expr (&targ->tok[op_num], &insn->tok[op_data]);
break;
case OP_FREEREG:
break;
case OP_OPERAND_HI16U:
case OP_OPERAND_LOW16U:
- assert (op_data < insn->ntok);
+ gas_assert (op_data < insn->ntok);
if (expr_is_const (&insn->tok[op_data]))
{
long val;
if (targ->opcode == XTENSA_UNDEFINED
|| (targ->opcode != xtensa_const16_opcode))
return FALSE;
- assert (op_data < insn->ntok);
+ gas_assert (op_data < insn->ntok);
/* Need to build a O_lo16 or O_hi16. */
copy_expr (&targ->tok[op_num], &insn->tok[op_data]);
if (targ->tok[op_num].X_op == O_symbol)
OP_OPERAND_F32MINUS */
if (xg_has_userdef_op_fn (op->typ))
{
- assert (op_data < insn->ntok);
+ gas_assert (op_data < insn->ntok);
if (expr_is_const (&insn->tok[op_data]))
{
long val;
return FALSE; /* We cannot use a relocation for this. */
break;
}
- assert (0);
+ gas_assert (0);
break;
}
}
{
int op_num = op->op_num;
int op_data = op->op_data;
- assert (op->op_num < MAX_INSN_ARGS);
+ gas_assert (op->op_num < MAX_INSN_ARGS);
if (targ->ntok <= op_num)
targ->ntok = op_num + 1;
switch (op->typ)
{
case OP_OPERAND:
- assert (op_data < insn->ntok);
+ gas_assert (op_data < insn->ntok);
/* We can only pass resolvable literals through. */
if (!xg_valid_literal_expression (&insn->tok[op_data]))
return FALSE;
case OP_CONSTANT:
case OP_LABEL:
default:
- assert (0);
+ gas_assert (0);
break;
}
}
targ->insn_type = ITYPE_LABEL;
targ->is_specific_opcode = FALSE;
/* Literal with no ops is a label? */
- assert (op == NULL);
+ gas_assert (op == NULL);
break;
default:
- assert (0);
+ gas_assert (0);
}
return TRUE;
TransitionTable *table = xg_build_widen_table (&transition_rule_cmp);
TransitionList *l;
- assert (insn->insn_type == ITYPE_INSN);
- assert (insn->opcode < table->num_opcodes);
+ gas_assert (insn->insn_type == ITYPE_INSN);
+ gas_assert (insn->opcode < table->num_opcodes);
for (l = table->table[insn->opcode]; l != NULL; l = l->next)
{
xtensa_set_frag_assembly_state (frag_now);
/* Just to make sure that we did not split it up. */
- assert (old_frag->fr_next == frag_now);
+ gas_assert (old_frag->fr_next == frag_now);
}
{
case OP_CONSTANT:
/* The expression must be the constant. */
- assert (b_op->op_num < MAX_INSN_ARGS);
+ gas_assert (b_op->op_num < MAX_INSN_ARGS);
exp = &new_insn->tok[b_op->op_num];
set_expr_const (exp, b_op->op_data);
break;
case OP_OPERAND:
- assert (b_op->op_num < MAX_INSN_ARGS);
- assert (b_op->op_data < (unsigned) old_insn->ntok);
+ gas_assert (b_op->op_num < MAX_INSN_ARGS);
+ gas_assert (b_op->op_data < (unsigned) old_insn->ntok);
src_exp = &old_insn->tok[b_op->op_data];
exp = &new_insn->tok[b_op->op_num];
copy_expr (exp, src_exp);
case OP_LITERAL:
case OP_LABEL:
as_bad (_("can't handle generation of literal/labels yet"));
- assert (0);
+ gas_assert (0);
default:
as_bad (_("can't handle undefined OP TYPE"));
- assert (0);
+ gas_assert (0);
}
}
insn_spec = rule->to_instr;
/* There should only be one. */
- assert (insn_spec != NULL);
- assert (insn_spec->next == NULL);
+ gas_assert (insn_spec != NULL);
+ gas_assert (insn_spec->next == NULL);
if (insn_spec->next != NULL)
return FALSE;
set_expr_symbol_offset (&saved_loc, frag_now->fr_symbol, frag_now_fix ());
- assert (insn->insn_type == ITYPE_LITERAL);
- assert (insn->ntok == 1); /* must be only one token here */
+ gas_assert (insn->insn_type == ITYPE_LITERAL);
+ gas_assert (insn->ntok == 1); /* must be only one token here */
xtensa_switch_to_literal_fragment (&state);
break;
}
- assert (frag_now->tc_frag_data.literal_frag == NULL);
+ gas_assert (frag_now->tc_frag_data.literal_frag == NULL);
frag_now->tc_frag_data.literal_frag = get_literal_pool_location (now_seg);
frag_now->fr_symbol = xtensa_create_literal_symbol (now_seg, frag_now);
lit_sym = frag_now->fr_symbol;
offsetT litalign = 2; /* 2^2 = 4 */
fragS *lit_saved_frag;
- assert (size % 4 == 0);
+ gas_assert (size % 4 == 0);
xtensa_switch_to_literal_fragment (&state);
int i;
if (lit_sym == 0)
return;
- assert (insn->insn_type == ITYPE_INSN);
+ gas_assert (insn->insn_type == ITYPE_INSN);
for (i = 0; i < insn->ntok; i++)
if (insn->tok[i].X_add_symbol == sym)
insn->tok[i].X_add_symbol = lit_sym;
|| next_fragP->fr_subtype == RELAX_UNREACHABLE)))
next_fragP = next_fragP->fr_next;
- assert (next_fragP->fr_type == rs_machine_dependent
+ gas_assert (next_fragP->fr_type == rs_machine_dependent
&& (next_fragP->fr_subtype == RELAX_MAYBE_UNREACHABLE
|| next_fragP->fr_subtype == RELAX_UNREACHABLE));
|| new_target->fr_subtype == RELAX_DESIRE_ALIGN)))
new_target = new_target->fr_next;
- assert (new_target->fr_type == rs_machine_dependent
+ gas_assert (new_target->fr_type == rs_machine_dependent
&& (new_target->fr_subtype == RELAX_MAYBE_DESIRE_ALIGN
|| new_target->fr_subtype == RELAX_DESIRE_ALIGN));
}
else
tinsn->opcode = xtensa_nop_opcode;
- assert (tinsn->opcode != XTENSA_UNDEFINED);
+ gas_assert (tinsn->opcode != XTENSA_UNDEFINED);
}
}
/* This is the OFFSET of the loop instruction in the expanded loop.
This MUST correspond directly to the specification of the loop
expansion. It will be validated on fragment conversion. */
- assert (opcode != XTENSA_UNDEFINED);
+ gas_assert (opcode != XTENSA_UNDEFINED);
if (opcode == xtensa_loop_opcode)
return 0;
if (opcode == xtensa_loopnez_opcode)
by the linker, and it makes the object file disassembly
readable when all branch targets are encoded in relocations. */
- assert (fixP->fx_addsy);
+ gas_assert (fixP->fx_addsy);
if (S_GET_SEGMENT (fixP->fx_addsy) == seg
&& !S_FORCE_RELOC (fixP->fx_addsy, 1))
{
/* Make sure none of our internal relocations make it this far.
They'd better have been fully resolved by this point. */
- assert ((int) fixp->fx_r_type > 0);
+ gas_assert ((int) fixp->fx_r_type > 0);
reloc->addend = fixp->fx_offset;
{
xtensa_funcUnit unit = (rt->opcode_unit_use) (rt->data, opcode, i);
int stage = (rt->opcode_unit_stage) (rt->data, opcode, i);
- assert (rt->units[stage + cycle][unit] > 0);
+ gas_assert (rt->units[stage + cycle][unit] > 0);
rt->units[stage + cycle][unit]--;
}
}
TInsn *insn = &slotstack.insn[j];
if (insn->insn_type == ITYPE_LITERAL)
{
- assert (lit_sym == NULL);
+ gas_assert (lit_sym == NULL);
lit_sym = xg_assemble_literal (insn);
}
else
{
- assert (insn->insn_type == ITYPE_INSN);
+ gas_assert (insn->insn_type == ITYPE_INSN);
if (lit_sym)
xg_resolve_literals (insn, lit_sym);
if (j != slotstack.ninsn - 1)
int branches = 0;
xtensa_isa isa = xtensa_default_isa;
- assert (!past_xtensa_end);
+ gas_assert (!past_xtensa_end);
for (i = 0 ; i < vinsn->num_slots; i++)
{
int slot, chosen_slot;
vinsn->format = xg_get_single_format (tinsn->opcode);
- assert (vinsn->format != XTENSA_UNDEFINED);
+ gas_assert (vinsn->format != XTENSA_UNDEFINED);
vinsn->num_slots = xtensa_format_num_slots (isa, vinsn->format);
chosen_slot = xg_get_single_slot (tinsn->opcode);
switch (insn->insn_type)
{
case ITYPE_LITERAL:
- assert (lit_sym == NULL);
+ gas_assert (lit_sym == NULL);
lit_sym = xg_assemble_literal (insn);
break;
case ITYPE_LABEL:
char *label = xmalloc (strlen (FAKE_LABEL_NAME) + 12);
sprintf (label, "%s_rl_%x", FAKE_LABEL_NAME, relaxed_sym_idx++);
colon (label);
- assert (label_sym == NULL);
+ gas_assert (label_sym == NULL);
label_sym = symbol_find_or_make (label);
- assert (label_sym);
+ gas_assert (label_sym);
free (label);
}
break;
}
break;
default:
- assert (0);
+ gas_assert (0);
break;
}
}
frag_now->tc_frag_data.free_reg[slot] = tinsn->extra_arg;
if (tinsn->subtype == RELAX_NARROW)
- assert (vinsn->num_slots == 1);
+ gas_assert (vinsn->num_slots == 1);
if (xtensa_opcode_is_jump (isa, tinsn->opcode) == 1)
is_jump = TRUE;
if (xtensa_opcode_is_branch (isa, tinsn->opcode) == 1)
{
if (is_jump)
{
- assert (finish_frag);
+ gas_assert (finish_frag);
frag_var (rs_machine_dependent,
UNREACHABLE_MAX_WIDTH, UNREACHABLE_MAX_WIDTH,
RELAX_UNREACHABLE,
}
else if (is_branch && do_align_targets ())
{
- assert (finish_frag);
+ gas_assert (finish_frag);
frag_var (rs_machine_dependent,
UNREACHABLE_MAX_WIDTH, UNREACHABLE_MAX_WIDTH,
RELAX_MAYBE_UNREACHABLE,
}
frag_wane (fragP);
}
- assert (fragP->fr_type != rs_machine_dependent
+ gas_assert (fragP->fr_type != rs_machine_dependent
|| fragP->fr_subtype != RELAX_ADD_NOP_IF_CLOSE_LOOP_END);
}
}
break;
default:
/* We had darn well better know how big it is. */
- assert (0);
+ gas_assert (0);
break;
}
tinsn_from_chars (&t_insn, loop_frag->fr_opcode, 0);
current_target = symbol_get_frag (fragP->fr_symbol);
current_opcode = t_insn.opcode;
- assert (xtensa_opcode_is_loop (xtensa_default_isa,
+ gas_assert (xtensa_opcode_is_loop (xtensa_default_isa,
current_opcode) == 1);
}
{
if (target_size <= 4)
return 2;
- assert (target_size == 8);
+ gas_assert (target_size == 8);
return 3;
}
bfd_boolean skip_one = FALSE;
alignment = (1 << align_pow);
- assert (target_size > 0 && alignment >= (addressT) target_size);
+ gas_assert (target_size > 0 && alignment >= (addressT) target_size);
if (!use_nops)
{
== (address + fill + target_size - 1) >> align_pow)
return fill;
}
- assert (0);
+ gas_assert (0);
return 0;
}
return 3;
}
else
- assert (xtensa_fetch_width == 4);
+ gas_assert (xtensa_fetch_width == 4);
return 2;
}
if (use_no_density)
{
- assert (fill_size % 3 == 0);
+ gas_assert (fill_size % 3 == 0);
return (fill_size / 3);
}
- assert (fill_size != 1); /* Bad argument. */
+ gas_assert (fill_size != 1); /* Bad argument. */
while (fill_size > 1)
{
fill_size -= insn_size;
count++;
}
- assert (fill_size != 1); /* Bad algorithm. */
+ gas_assert (fill_size != 1); /* Bad algorithm. */
return count;
}
if (use_no_density)
return 3;
- assert (fill_size != 1); /* Bad argument. */
+ gas_assert (fill_size != 1); /* Bad argument. */
while (fill_size > 1)
{
if (n + 1 == count)
return insn_size;
}
- assert (0);
+ gas_assert (0);
return 0;
}
xtensa_opcode opcode;
bfd_boolean is_loop;
- assert (fragP->fr_type == rs_machine_dependent);
- assert (fragP->fr_subtype == RELAX_ALIGN_NEXT_OPCODE);
+ gas_assert (fragP->fr_type == rs_machine_dependent);
+ gas_assert (fragP->fr_subtype == RELAX_ALIGN_NEXT_OPCODE);
/* Find the loop frag. */
first_insn = next_non_empty_frag (fragP);
first_insn = next_non_empty_frag (first_insn);
is_loop = next_frag_opcode_is_loop (fragP, &opcode);
- assert (is_loop);
+ gas_assert (is_loop);
loop_insn_size = xg_get_single_size (opcode);
pre_opcode_bytes = next_frag_pre_opcode_bytes (fragP);
offsetT branch_align;
fragS *loop_frag;
- assert (fragP->fr_type == rs_machine_dependent);
+ gas_assert (fragP->fr_type == rs_machine_dependent);
switch (fragP->fr_subtype)
{
case RELAX_DESIRE_ALIGN:
*max_diff = (opt_diff + branch_align
- (target_size + ((address + opt_diff) % branch_align)));
- assert (*max_diff >= opt_diff);
+ gas_assert (*max_diff >= opt_diff);
return opt_diff;
case RELAX_ALIGN_NEXT_OPCODE:
target_size = get_loop_align_size (next_frag_format_size (loop_frag));
loop_insn_offset = 0;
is_loop = next_frag_opcode_is_loop (fragP, &loop_opcode);
- assert (is_loop);
+ gas_assert (is_loop);
/* If the loop has been expanded then the LOOP instruction
could be at an offset from this fragment. */
*max_diff = xtensa_fetch_width
- ((target_address + opt_diff) % xtensa_fetch_width)
- target_size + opt_diff;
- assert (*max_diff >= opt_diff);
+ gas_assert (*max_diff >= opt_diff);
return opt_diff;
default:
break;
}
- assert (0);
+ gas_assert (0);
return 0;
}
case RELAX_LITERAL_NR:
lit_size = 4;
fragP->fr_subtype = RELAX_LITERAL_FINAL;
- assert (unreported == lit_size);
+ gas_assert (unreported == lit_size);
memset (&fragP->fr_literal[fragP->fr_fix], 0, 4);
fragP->fr_var -= lit_size;
fragP->fr_fix += lit_size;
long stretch_me;
long diff;
- assert (fragP->fr_subtype == RELAX_FILL_NOP
+ gas_assert (fragP->fr_subtype == RELAX_FILL_NOP
|| fragP->fr_subtype == RELAX_UNREACHABLE
|| (fragP->fr_subtype == RELAX_SLOTS
&& fragP->tc_frag_data.slot_subtypes[0] == RELAX_NARROW));
{
local_opt_diff = get_aligned_diff (fragP, address, &max_diff);
opt_diff = local_opt_diff;
- assert (opt_diff >= 0);
- assert (max_diff >= opt_diff);
+ gas_assert (opt_diff >= 0);
+ gas_assert (max_diff >= opt_diff);
if (max_diff == 0)
return 0;
{
if (this_frag->fr_subtype == RELAX_UNREACHABLE)
{
- assert (opt_diff <= UNREACHABLE_MAX_WIDTH);
+ gas_assert (opt_diff <= UNREACHABLE_MAX_WIDTH);
return opt_diff;
}
return 0;
if (this_frag->fr_subtype == RELAX_SLOTS
&& this_frag->tc_frag_data.slot_subtypes[0] == RELAX_NARROW)
- assert (stretch_amount <= 1);
+ gas_assert (stretch_amount <= 1);
else if (this_frag->fr_subtype == RELAX_FILL_NOP)
{
if (this_frag->tc_frag_data.is_no_density)
- assert (stretch_amount == 3 || stretch_amount == 0);
+ gas_assert (stretch_amount == 3 || stretch_amount == 0);
else
- assert (stretch_amount <= 3);
+ gas_assert (stretch_amount <= 3);
}
}
return stretch_amount;
{
int bytes_short = desired_diff - num_widens;
- assert (desired_diff >= 0 && desired_diff < 8);
+ gas_assert (desired_diff >= 0 && desired_diff < 8);
if (desired_diff == 0)
return 0;
- assert (wide_nops > 0 || num_widens > 0);
+ gas_assert (wide_nops > 0 || num_widens > 0);
/* Always prefer widening to NOP-filling. */
if (bytes_short < 0)
return 3; /* case 7b */
return 0;
default:
- assert (0);
+ gas_assert (0);
}
}
else
switch (desired_diff)
{
case 1:
- assert (0);
+ gas_assert (0);
return 0;
case 2:
case 3:
return 1; /* case 7b */
return 0;
default:
- assert (0);
+ gas_assert (0);
return 0;
}
}
- assert (0);
+ gas_assert (0);
return 0;
}
int num_text_bytes, num_literal_bytes;
int literal_diff, total_text_diff, this_text_diff;
- assert (fragP->fr_opcode != NULL);
+ gas_assert (fragP->fr_opcode != NULL);
xg_clear_vinsn (&cur_vinsn);
vinsn_from_chars (&cur_vinsn, fragP->fr_opcode);
istack_init (&istack);
num_steps = xg_assembly_relax (&istack, &tinsn, segP, fragP, frag_offset,
min_steps, stretch);
- assert (num_steps >= min_steps && num_steps <= RELAX_IMMED_MAXSTEPS);
+ gas_assert (num_steps >= min_steps && num_steps <= RELAX_IMMED_MAXSTEPS);
fragP->tc_frag_data.slot_subtypes[slot] = (int) RELAX_IMMED + num_steps;
num_steps = xg_assembly_relax (&istack, &tinsn, segP, fragP,
frag_offset + old_size,
min_steps, stretch + old_size);
- assert (num_steps >= min_steps && num_steps <= RELAX_IMMED_MAXSTEPS);
+ gas_assert (num_steps >= min_steps && num_steps <= RELAX_IMMED_MAXSTEPS);
fragP->tc_frag_data.slot_subtypes[slot]
= (int) RELAX_IMMED + num_steps;
this_text_diff = total_text_diff - fragP->tc_frag_data.text_expansion[slot];
/* It MUST get larger. If not, we could get an infinite loop. */
- assert (num_text_bytes >= 0);
- assert (literal_diff >= 0);
- assert (total_text_diff >= 0);
+ gas_assert (num_text_bytes >= 0);
+ gas_assert (literal_diff >= 0);
+ gas_assert (total_text_diff >= 0);
fragP->tc_frag_data.text_expansion[slot] = total_text_diff;
fragP->tc_frag_data.literal_expansion[slot] = num_literal_bytes;
- assert (fragP->tc_frag_data.text_expansion[slot] >= 0);
- assert (fragP->tc_frag_data.literal_expansion[slot] >= 0);
+ gas_assert (fragP->tc_frag_data.text_expansion[slot] >= 0);
+ gas_assert (fragP->tc_frag_data.literal_expansion[slot] >= 0);
/* Find the associated expandable literal for this. */
if (literal_diff != 0)
fragS *lit_fragP = fragP->tc_frag_data.literal_frags[slot];
if (lit_fragP)
{
- assert (literal_diff == 4);
+ gas_assert (literal_diff == 4);
lit_fragP->tc_frag_data.unreported_expansion += literal_diff;
/* We expect that the literal section state has NOT been
modified yet. */
- assert (lit_fragP->fr_type == rs_machine_dependent
+ gas_assert (lit_fragP->fr_type == rs_machine_dependent
&& lit_fragP->fr_subtype == RELAX_LITERAL);
lit_fragP->fr_subtype = RELAX_LITERAL_NR;
fragS *f;
fragp->fr_subtype = RELAX_LITERAL_FINAL;
- assert (fragp->tc_frag_data.unreported_expansion == 4);
+ gas_assert (fragp->tc_frag_data.unreported_expansion == 4);
memset (&fragp->fr_literal[fragp->fr_fix], 0, 4);
fragp->fr_var -= 4;
fragp->fr_fix += 4;
int size, old_size, diff;
offsetT frag_offset;
- assert (slot == 0);
+ gas_assert (slot == 0);
tinsn_from_chars (&tinsn, fragP->fr_opcode, 0);
if (fragP->tc_frag_data.is_aligning_branch == 1)
{
- assert (fragP->tc_frag_data.text_expansion[0] == 1
+ gas_assert (fragP->tc_frag_data.text_expansion[0] == 1
|| fragP->tc_frag_data.text_expansion[0] == 0);
convert_frag_immed (segP, fragP, fragP->tc_frag_data.text_expansion[0],
fmt, slot);
return;
}
- assert (fragP->fr_opcode != NULL);
+ gas_assert (fragP->fr_opcode != NULL);
/* Frags in this relaxation state should only contain
single instruction bundles. */
frag_offset, TRUE);
diff = size - old_size;
- assert (diff >= 0);
- assert (diff <= fragP->fr_var);
+ gas_assert (diff >= 0);
+ gas_assert (diff <= fragP->fr_var);
fragP->fr_var -= diff;
fragP->fr_fix += diff;
{
char *loc = &fragP->fr_literal[fragP->fr_fix];
int size = fragP->tc_frag_data.text_expansion[0];
- assert ((unsigned) size == (fragP->fr_next->fr_address
+ gas_assert ((unsigned) size == (fragP->fr_next->fr_address
- fragP->fr_address - fragP->fr_fix));
if (size == 0)
{
int bytes;
bfd_boolean is_loop;
- assert (fr_opcode != NULL);
+ gas_assert (fr_opcode != NULL);
xg_clear_vinsn (&cur_vinsn);
else
{
bytes += fragP->tc_frag_data.text_expansion[0];
- assert (bytes == 2 || bytes == 3);
+ gas_assert (bytes == 2 || bytes == 3);
build_nop (&cur_vinsn.slots[0], bytes);
fragP->fr_fix += fragP->tc_frag_data.text_expansion[0];
}
unreach = unreach->fr_next;
}
- assert (unreach->fr_type == rs_machine_dependent
+ gas_assert (unreach->fr_type == rs_machine_dependent
&& (unreach->fr_subtype == RELAX_MAYBE_UNREACHABLE
|| unreach->fr_subtype == RELAX_UNREACHABLE));
target_offset += unreach->tc_frag_data.text_expansion[0];
}
- assert (gen_label == NULL);
+ gas_assert (gen_label == NULL);
gen_label = symbol_new (FAKE_LABEL_NAME, now_seg,
fr_opcode - fragP->fr_literal
+ target_offset, fragP);
case ITYPE_LITERAL:
lit_frag = fragP->tc_frag_data.literal_frags[slot];
/* Already checked. */
- assert (lit_frag != NULL);
- assert (lit_sym != NULL);
- assert (tinsn->ntok == 1);
+ gas_assert (lit_frag != NULL);
+ gas_assert (lit_sym != NULL);
+ gas_assert (tinsn->ntok == 1);
/* Add a fixup. */
target_seg = S_GET_SEGMENT (lit_sym);
- assert (target_seg);
+ gas_assert (target_seg);
reloc_type = map_operator_to_reloc (tinsn->tok[0].X_op, TRUE);
fix_new_exp_in_seg (target_seg, 0, lit_frag, 0, 4,
&tinsn->tok[0], FALSE, reloc_type);
}
diff = total_size - old_size;
- assert (diff >= 0);
+ gas_assert (diff >= 0);
if (diff != 0)
expanded = TRUE;
- assert (diff <= fragP->fr_var);
+ gas_assert (diff <= fragP->fr_var);
fragP->fr_var -= diff;
fragP->fr_fix += diff;
}
segT seg = now_seg;
subsegT subseg = now_subseg;
- assert (new_seg != 0);
+ gas_assert (new_seg != 0);
subseg_set (new_seg, new_subseg);
new_fix = fix_new_exp (frag, where, size, exp, pcrel, r_type);
tinsn_from_chars (&loop_insn, fragP->fr_opcode + loop_offset, 0);
tinsn_immed_from_frag (&loop_insn, fragP, 0);
- assert (xtensa_opcode_is_loop (isa, loop_insn.opcode) == 1);
+ gas_assert (xtensa_opcode_is_loop (isa, loop_insn.opcode) == 1);
addi_offset += loop_offset;
addmi_offset += loop_offset;
- assert (tinsn->ntok == 2);
+ gas_assert (tinsn->ntok == 2);
if (tinsn->tok[1].X_op == O_constant)
target = tinsn->tok[1].X_add_number;
else if (tinsn->tok[1].X_op == O_symbol)
{
/* Find the fragment. */
symbolS *sym = tinsn->tok[1].X_add_symbol;
- assert (S_GET_SEGMENT (sym) == segP
+ gas_assert (S_GET_SEGMENT (sym) == segP
|| S_GET_SEGMENT (sym) == absolute_section);
target = (S_GET_VALUE (sym) + tinsn->tok[1].X_add_number);
}
_("loop too long for LOOP instruction"));
tinsn_from_chars (&addi_insn, fragP->fr_opcode + addi_offset, 0);
- assert (addi_insn.opcode == xtensa_addi_opcode);
+ gas_assert (addi_insn.opcode == xtensa_addi_opcode);
tinsn_from_chars (&addmi_insn, fragP->fr_opcode + addmi_offset, 0);
- assert (addmi_insn.opcode == xtensa_addmi_opcode);
+ gas_assert (addmi_insn.opcode == xtensa_addmi_opcode);
set_expr_const (&addi_insn.tok[2], loop_length_lo);
tinsn_to_insnbuf (&addi_insn, insnbuf);
segT literal_section = head->seg;
/* Move the literal section to the front of the section list. */
- assert (literal_section);
+ gas_assert (literal_section);
if (literal_section != stdoutput->sections)
{
bfd_section_list_remove (stdoutput, literal_section);
while (!search_frag->tc_frag_data.literal_frag)
{
- assert (search_frag->fr_fix == 0
+ gas_assert (search_frag->fr_fix == 0
|| search_frag->fr_type == rs_align);
search_frag = search_frag->fr_next;
}
- assert (search_frag->tc_frag_data.literal_frag->fr_subtype
+ gas_assert (search_frag->tc_frag_data.literal_frag->fr_subtype
== RELAX_LITERAL_POOL_BEGIN);
xtensa_switch_section_emit_state (&state, segment->seg, 0);
if (search_frag->tc_frag_data.literal_frag)
{
literal_pool = search_frag->tc_frag_data.literal_frag;
- assert (literal_pool->fr_subtype == RELAX_LITERAL_POOL_BEGIN);
+ gas_assert (literal_pool->fr_subtype == RELAX_LITERAL_POOL_BEGIN);
frchain_to = literal_pool->tc_frag_data.lit_frchain;
- assert (frchain_to);
+ gas_assert (frchain_to);
}
insert_after = literal_pool->tc_frag_data.literal_frag;
dest_seg = insert_after->fr_next->tc_frag_data.lit_seg;
frchain_from = seg_info (segment->seg)->frchainP;
as_warn (_("fixes not all moved from %s"), segment->seg->name);
- assert (frchain_from->fix_root == NULL);
+ gas_assert (frchain_from->fix_root == NULL);
}
frchain_from->fix_tail = NULL;
xtensa_restore_emit_state (&state);
segT literal_section = head->seg;
/* Move the literal section after "after". */
- assert (literal_section);
+ gas_assert (literal_section);
if (literal_section != after)
{
bfd_section_list_remove (stdoutput, literal_section);
/* Now perform the final error check. */
for (sec = stdoutput->sections; sec != NULL; sec = sec->next)
new_count++;
- assert (new_count == old_count);
+ gas_assert (new_count == old_count);
}
static bfd_boolean
get_frag_is_literal (const fragS *fragP)
{
- assert (fragP != NULL);
+ gas_assert (fragP != NULL);
return fragP->tc_frag_data.is_literal;
}
fixS *fix;
/* Write the fixup. */
- assert (cur_block);
+ gas_assert (cur_block);
fix = fix_new (frag_now, i * 8, 4,
section_symbol (cur_block->sec),
cur_block->offset,
fixS *fix;
/* Write the fixup. */
- assert (cur_block);
+ gas_assert (cur_block);
fix = fix_new (frag_now, i * 12, 4,
section_symbol (cur_block->sec),
cur_block->offset,
op_placement_table = (op_placement_info_table)
xmalloc (sizeof (op_placement_info) * num_opcodes);
- assert (xtensa_isa_num_formats (isa) < MAX_FORMATS);
+ gas_assert (xtensa_isa_num_formats (isa) < MAX_FORMATS);
for (opcode = 0; opcode < num_opcodes; opcode++)
{
istack_top (IStack *stack)
{
int rec = stack->ninsn - 1;
- assert (!istack_empty (stack));
+ gas_assert (!istack_empty (stack));
return &stack->insn[rec];
}
istack_push (IStack *stack, TInsn *insn)
{
int rec = stack->ninsn;
- assert (!istack_full (stack));
+ gas_assert (!istack_full (stack));
stack->insn[rec] = *insn;
stack->ninsn++;
}
{
int rec = stack->ninsn;
TInsn *insn;
- assert (!istack_full (stack));
+ gas_assert (!istack_full (stack));
insn = &stack->insn[rec];
tinsn_init (insn);
stack->ninsn++;
istack_pop (IStack *stack)
{
int rec = stack->ninsn - 1;
- assert (!istack_empty (stack));
+ gas_assert (!istack_empty (stack));
stack->ninsn--;
tinsn_init (&stack->insn[rec]);
}
int i;
int n = insn->ntok;
- assert (insn->insn_type == ITYPE_INSN);
+ gas_assert (insn->insn_type == ITYPE_INSN);
for (i = 0; i < n; ++i)
{
int i;
int n = insn->ntok;
- assert (insn->insn_type == ITYPE_INSN);
+ gas_assert (insn->insn_type == ITYPE_INSN);
for (i = 0; i < n; ++i)
{
{
int i;
int n = insn->ntok;
- assert (insn->insn_type == ITYPE_INSN);
+ gas_assert (insn->insn_type == ITYPE_INSN);
for (i = 0; i < n; ++i)
{
switch (insn->tok[i].X_op)
int noperands = xtensa_opcode_num_operands (isa, opcode);
int i;
- assert (tinsn->insn_type == ITYPE_INSN);
+ gas_assert (tinsn->insn_type == ITYPE_INSN);
if (noperands != tinsn->ntok)
as_fatal (_("operand number mismatch"));
if (fragP->tc_frag_data.slot_symbols[slot])
{
opnum = get_relaxable_immed (opcode);
- assert (opnum >= 0);
+ gas_assert (opnum >= 0);
set_expr_symbol_offset (&tinsn->tok[opnum],
fragP->tc_frag_data.slot_symbols[slot],
fragP->tc_frag_data.slot_offsets[slot]);
offsetT
get_expr_const (const expressionS *s)
{
- assert (expr_is_const (s));
+ gas_assert (expr_is_const (s));
return s->X_add_number;
}
offsetT
get_expr_register (const expressionS *s)
{
- assert (expr_is_register (s));
+ gas_assert (expr_is_register (s));
return s->X_add_number;
}
projects / thirdparty / binutils-gdb.git / blobdiff