void draw_ufunc_string(ivl_expr_t expr)
{
ivl_scope_t def = ivl_expr_def(expr);
ivl_signal_t retval = ivl_scope_port(def, 0);
/* Take in arguments to function and call the function code. */
draw_ufunc_preamble(expr);
/* Return value signal cannot be an array. */
assert(ivl_signal_dimensions(retval) == 0);
/* Load the result into a word. */
fprintf(vvp_out, " %%load/str v%p_0;\n", retval);
draw_ufunc_epilogue(expr);
}
struct vector_info draw_ufunc_expr(ivl_expr_t expr, unsigned wid)
{
unsigned swid = ivl_expr_width(expr);
ivl_scope_t def = ivl_expr_def(expr);
ivl_signal_t retval = ivl_scope_port(def, 0);
struct vector_info res;
unsigned load_wid;
/* Take in arguments to function and call function code. */
draw_ufunc_preamble(expr);
/* Fresh basic block starts after the join. */
clear_expression_lookaside();
/* The return value is in a signal that has the name of the
expression. Load that into the thread and return the
vector result. */
res.base = allocate_vector(wid);
res.wid = wid;
if (res.base == 0) {
fprintf(stderr, "%s:%u: vvp.tgt error: "
"Unable to allocate %u thread bits for function result.\n",
ivl_expr_file(expr), ivl_expr_lineno(expr), wid);
vvp_errors += 1;
return res;
}
assert(res.base != 0);
load_wid = swid;
if (load_wid > ivl_signal_width(retval))
load_wid = ivl_signal_width(retval);
assert(ivl_signal_dimensions(retval) == 0);
fprintf(vvp_out, " %%load/v %u, v%p_0, %u;\n",
res.base, retval, load_wid);
/* Pad the signal value with zeros. */
if (load_wid < wid)
pad_expr_in_place(expr, res, swid);
draw_ufunc_epilogue(expr);
return res;
}
void emit_expr(ivl_scope_t scope, ivl_expr_t expr, unsigned wid)
{
switch (ivl_expr_type(expr)) {
case IVL_EX_ARRAY:
emit_expr_array(scope, expr, wid);
break;
case IVL_EX_BINARY:
emit_expr_binary(scope, expr, wid);
break;
case IVL_EX_CONCAT:
emit_expr_concat(scope, expr, wid);
break;
case IVL_EX_DELAY:
emit_expr_delay(scope, expr, wid);
break;
case IVL_EX_ENUMTYPE:
fprintf(vlog_out, "<enum>");
fprintf(stderr, "%s:%u: vlog95 error: Enum expressions "
"are not supported.\n",
ivl_expr_file(expr),
ivl_expr_lineno(expr));
vlog_errors += 1;
break;
case IVL_EX_EVENT:
emit_expr_event(scope, expr, wid);
break;
case IVL_EX_NUMBER:
emit_number(ivl_expr_bits(expr), ivl_expr_width(expr),
ivl_expr_signed(expr), ivl_expr_file(expr),
ivl_expr_lineno(expr));
break;
case IVL_EX_REALNUM:
emit_real_number(ivl_expr_dvalue(expr));
break;
case IVL_EX_SCOPE:
emit_expr_scope(scope, expr, wid);
break;
case IVL_EX_SELECT:
emit_expr_select(scope, expr, wid);
break;
case IVL_EX_SFUNC:
fprintf(vlog_out, "%s", ivl_expr_name(expr));
emit_expr_func(scope, expr, wid);
break;
case IVL_EX_SIGNAL:
emit_expr_signal(scope, expr, wid);
break;
case IVL_EX_STRING:
emit_string(ivl_expr_string(expr));
break;
case IVL_EX_TERNARY:
emit_expr_ternary(scope, expr, wid);
break;
case IVL_EX_UFUNC:
emit_scope_path(scope, ivl_expr_def(expr));
emit_expr_func(scope, expr, wid);
break;
case IVL_EX_UNARY:
emit_expr_unary(scope, expr, wid);
break;
default:
fprintf(vlog_out, "<unknown>");
fprintf(stderr, "%s:%u: vlog95 error: Unknown expression "
"type (%d).\n",
ivl_expr_file(expr),
ivl_expr_lineno(expr),
(int)ivl_expr_type(expr));
vlog_errors += 1;
break;
}
}
struct vector_info draw_ufunc_expr(ivl_expr_t expr, unsigned wid)
{
unsigned idx;
unsigned swid = ivl_expr_width(expr);
ivl_scope_t def = ivl_expr_def(expr);
ivl_signal_t retval = ivl_scope_port(def, 0);
struct vector_info res;
unsigned load_wid;
/* If this is an automatic function, allocate the local storage. */
if (ivl_scope_is_auto(def)) {
fprintf(vvp_out, " %%alloc S_%p;\n", def);
}
/* evaluate the expressions and send the results to the
function ports. */
assert(ivl_expr_parms(expr) == (ivl_scope_ports(def)-1));
for (idx = 0 ; idx < ivl_expr_parms(expr) ; idx += 1) {
ivl_signal_t port = ivl_scope_port(def, idx+1);
draw_function_argument(port, ivl_expr_parm(expr, idx));
}
/* Call the function */
fprintf(vvp_out, " %%fork TD_%s", vvp_mangle_id(ivl_scope_name(def)));
fprintf(vvp_out, ", S_%p;\n", def);
fprintf(vvp_out, " %%join;\n");
/* Fresh basic block starts after the join. */
clear_expression_lookaside();
/* The return value is in a signal that has the name of the
expression. Load that into the thread and return the
vector result. */
res.base = allocate_vector(wid);
res.wid = wid;
if (res.base == 0) {
fprintf(stderr, "%s:%u: vvp.tgt error: "
"Unable to allocate %u thread bits for function result.\n",
ivl_expr_file(expr), ivl_expr_lineno(expr), wid);
vvp_errors += 1;
return res;
}
assert(res.base != 0);
load_wid = swid;
if (load_wid > ivl_signal_width(retval))
load_wid = ivl_signal_width(retval);
assert(ivl_signal_dimensions(retval) == 0);
fprintf(vvp_out, " %%load/v %u, v%p_0, %u;\n",
res.base, retval, load_wid);
/* Pad the signal value with zeros. */
if (load_wid < wid)
pad_expr_in_place(expr, res, swid);
/* If this is an automatic function, free the local storage. */
if (ivl_scope_is_auto(def)) {
fprintf(vvp_out, " %%free S_%p;\n", def);
}
return res;
}
