static void lpm_show_constant(ivl_net_const_t net)
{
edif_cell_t cell0 = edif_xlibrary_findcell(xlib, "cell0");
edif_cell_t cell1 = edif_xlibrary_findcell(xlib, "cell1");
edif_cellref_t ref0 = 0, ref1 = 0;
const char*bits;
unsigned idx;
if (cell0 == 0) {
cell0 = edif_xcell_create(xlib, "cell0", 1);
edif_cell_portconfig(cell0, 0, "Result0", IVL_SIP_OUTPUT);
edif_cell_pstring(cell0, "LPM_Type", "LPM_CONSTANT");
edif_cell_pinteger(cell0, "LPM_Width", 1);
edif_cell_pinteger(cell0, "LPM_CValue", 0);
}
if (cell1 == 0) {
cell1 = edif_xcell_create(xlib, "cell1", 1);
edif_cell_portconfig(cell1, 0, "Result0", IVL_SIP_OUTPUT);
edif_cell_pstring(cell1, "LPM_Type", "LPM_CONSTANT");
edif_cell_pinteger(cell1, "LPM_Width", 1);
edif_cell_pinteger(cell1, "LPM_CValue", 1);
}
bits = ivl_const_bits(net);
for (idx = 0 ; idx < ivl_const_pins(net) ; idx += 1) {
if (bits[idx] == '1') {
if (ref1 == 0)
ref1 = edif_cellref_create(edf, cell1);
} else {
if (ref0 == 0)
ref0 = edif_cellref_create(edf, cell0);
}
}
for (idx = 0 ; idx < ivl_const_pins(net) ; idx += 1) {
edif_joint_t jnt;
jnt = edif_joint_of_nexus(edf, ivl_const_pin(net,idx));
if (bits[idx] == '1')
edif_add_to_joint(jnt, ref1, 0);
else
edif_add_to_joint(jnt, ref0, 0);
}
}
static void show_design_consts_xnf(ivl_design_t des)
{
unsigned idx;
for (idx = 0 ; idx < ivl_design_consts(des) ; idx += 1) {
unsigned pin;
ivl_net_const_t net = ivl_design_const(des, idx);
const char*val = ivl_const_bits(net);
for (pin = 0 ; pin < ivl_const_pins(net) ; pin += 1) {
ivl_nexus_t nex = ivl_const_pin(net, pin);
fprintf(xnf, "PWR,%c,%s\n", val[pin],
xnf_mangle_nexus_name(nex));
}
}
}
static void edif_show_consts(ivl_design_t des)
{
unsigned idx;
char jbuf[128];
for (idx = 0 ; idx < ivl_design_consts(des) ; idx += 1) {
unsigned pin;
ivl_net_const_t net = ivl_design_const(des, idx);
const char*val = ivl_const_bits(net);
for (pin = 0 ; pin < ivl_const_pins(net) ; pin += 1) {
ivl_nexus_t nex = ivl_const_pin(net, pin);
const char*name;
const char*port;
edif_uref += 1;
switch (val[pin]) {
case '0':
name = "GND";
port = "GROUND";
break;
case '1':
name = "VCC";
port = "VCC";
break;
default:
name = "???";
port = "?";
break;
}
fprintf(xnf, "(instance U%u "
"(viewRef net"
" (cellRef %s (libraryRef VIRTEX))))\n",
edif_uref, name);
sprintf(jbuf, "(portRef %s (instanceRef U%u))",
port, edif_uref);
edif_set_nexus_joint(nex, jbuf);
}
}
}
// Build the design hierarchy.
int build_hierarchy(ivl_scope_t scope, void* cd)
{
int return_code;
unsigned i, j;
indent();
fprintf(output, "(scope ");
quoted_string(ivl_scope_tname(scope));
fprintf(output, " ");
quoted_string(ivl_scope_basename(scope));
fprintf(output, " (\n");
// Constants (root scope only)
if (! level)
for (i = 0; i < ivl_design_consts(design); i++) {
ivl_net_const_t constant = ivl_design_const(design, i);
const char* bits = ivl_const_bits(constant);
unsigned pins = ivl_const_pins(constant);
unsigned id = new_id();
indent();
fprintf(output, " (const %i \"", id);
for (j = pins - 1; j < pins; j--)
fprintf(output, "%c", bits[j]);
fprintf(output, "\")\n");
for (j = 0; j < pins; j++)
create_bit_select(id_of_nexus(ivl_const_pin(constant, j), 1), pins, j, id);
}
// Parameters
for (i = 0; i < ivl_scope_params(scope); i++) {
ivl_parameter_t param = ivl_scope_param(scope, i);
ivl_expr_t param_value = ivl_parameter_expr(param);
unsigned width = ivl_expr_width(param_value);
const char* bits;
unsigned id = new_id();
indent();
fprintf(output, " (const %i \"", id);
switch (ivl_expr_type(param_value)) {
case IVL_EX_STRING : bits = ivl_expr_string(param_value); break;
case IVL_EX_NUMBER : bits = ivl_expr_bits(param_value); break;
default : fprintf(output, "** ERROR: Unknown parameter type."); return -1;
}
for (j = width - 1; j < width; j--)
fprintf(output, "%c", bits[j]);
fprintf(output, "\")\n");
indent();
fprintf(output, " (name %i ", new_id());
quoted_string(ivl_parameter_basename(param));
fprintf(output, " %i %i)\n", width, id);
}
// Signals
for (i = 0; i < ivl_scope_sigs(scope); i++) {
ivl_signal_t sig = ivl_scope_sig(scope, i);
unsigned pins = ivl_signal_pins(sig);
ivl_signal_port_t type = ivl_signal_port(sig);
const char* name = ivl_signal_basename(sig);
unsigned id;
if (! level && type == IVL_SIP_INPUT) {
id = new_id();
fprintf(output, " (input %i \"%s\" %i)\n", id, name, pins);
for (j = 0; j < pins; j++)
create_bit_select(id_of_nexus(ivl_signal_pin(sig, j), 1), pins, j, id);
}
else if (! level && type == IVL_SIP_INOUT) {
printf("** ERROR: Inout ports not supported.\n");
}
else if (! level && type == IVL_SIP_OUTPUT) {
id = id_of_nexus(ivl_signal_pin(sig, 0), 0);
for (j = 1; j < pins; j++) {
id = create_bit_concat(id, j, ivl_signal_pin(sig, j));
}
fprintf(output, " (output %i \"%s\" %i %i)\n", new_id(), name, pins, id);
}
else {
id = id_of_nexus(ivl_signal_pin(sig, 0), 0);
for (j = 1; j < pins; j++) {
id = create_bit_concat(id, j, ivl_signal_pin(sig, j));
}
indent();
fprintf(output, " (name %i ", new_id()); //XXX Why is "_s22" getting named?
quoted_string(name);
fprintf(output, " %i %i)\n", pins, id);
}
}
// Logic
for (i = 0; i < ivl_scope_logs(scope); i++) {
unsigned id;
ivl_net_logic_t log = ivl_scope_log(scope, i);
switch (ivl_logic_type(log)) {
case IVL_LO_BUF:
indent();
fprintf(output, " (buf %i 1 %i)\n", id_of_nexus(ivl_logic_pin(log, 0), 1), id_of_nexus(ivl_logic_pin(log, 1), 0));
break;
case IVL_LO_NOT:
indent();
fprintf(output, " (not %i 1 %i)\n", id_of_nexus(ivl_logic_pin(log, 0), 1), id_of_nexus(ivl_logic_pin(log, 1), 0));
break;
case IVL_LO_AND:
indent();
create_multi_gate("and ", id_of_nexus(ivl_logic_pin(log, 0), 1), log);
break;
case IVL_LO_NAND:
id = new_id();
indent();
create_multi_gate("and ", id, log);
indent();
fprintf(output, " (not %i 1 %i)\n", id_of_nexus(ivl_logic_pin(log, 0), 1), id);
break;
case IVL_LO_XOR:
indent();
create_multi_gate("xor ", id_of_nexus(ivl_logic_pin(log, 0), 1), log);
break;
case IVL_LO_XNOR:
id = new_id();
indent();
create_multi_gate("xor ", id, log);
indent();
fprintf(output, " (not %i 1 %i)\n", id_of_nexus(ivl_logic_pin(log, 0), 1), id);
break;
case IVL_LO_OR:
indent();
create_multi_gate("or ", id_of_nexus(ivl_logic_pin(log, 0), 1), log);
break;
case IVL_LO_NOR:
id = new_id();
indent();
create_multi_gate("or ", id, log);
indent();
fprintf(output, " (not %i 1 %i)\n", id_of_nexus(ivl_logic_pin(log, 0), 1), id);
break;
default:
printf("** ERROR: Unsupported logic type: %i.\n", ivl_logic_type(log));
return -1;
}
}
// LPMs
for (i = 0; i < ivl_scope_lpms(scope); i++) {
ivl_lpm_t lpm = ivl_scope_lpm(scope, i);
ivl_lpm_type_t lpm_t = ivl_lpm_type(lpm);
unsigned width = ivl_lpm_width(lpm);
unsigned selects;
unsigned size;
unsigned id, id1, id2, id3;
switch (lpm_t) {
case IVL_LPM_ADD:
id = new_id();
id1 = create_concat_lpm_data(lpm);
id2 = create_concat_lpm_datab(lpm);
indent();
fprintf(output, " (add %i %i %i %i)\n", id, width, id1, id2);
create_split_lpm_q(lpm, id);
break;
case IVL_LPM_SUB:
id = new_id();
id1 = create_concat_lpm_data(lpm);
id2 = create_concat_lpm_datab(lpm);
indent();
fprintf(output, " (sub %i %i %i %i)\n", id, width, id1, id2);
create_split_lpm_q(lpm, id);
break;
case IVL_LPM_MULT:
id = new_id();
id1 = create_concat_lpm_data(lpm);
id2 = create_concat_lpm_datab(lpm);
indent();
fprintf(output, " (mul %i %i %i %i)\n", id, width, id1, id2);
create_split_lpm_q(lpm, id);
break;
case IVL_LPM_CMP_EQ:
id1 = create_concat_lpm_data(lpm);
id2 = create_concat_lpm_datab(lpm);
indent();
fprintf(output, " (eq %i %i %i %i)\n", id_of_nexus(ivl_lpm_q(lpm, 0), 1), width, id1, id2);
break;
case IVL_LPM_CMP_NE:
id1 = create_concat_lpm_data(lpm);
id2 = create_concat_lpm_datab(lpm);
id = new_id();
indent();
fprintf(output, " (eq %i %i %i %i)\n", id, width, id1, id2);
indent();
fprintf(output, " (not %i 1 %i)\n", id_of_nexus(ivl_lpm_q(lpm, 0), 1), id);
break;
case IVL_LPM_CMP_GT:
// XXX Check for signed.
id1 = create_concat_lpm_data(lpm);
id2 = create_concat_lpm_datab(lpm);
indent();
fprintf(output, " (lt %i %i %i %i)\n", id_of_nexus(ivl_lpm_q(lpm, 0), 1), width, id2, id1);
break;
case IVL_LPM_CMP_GE:
// XXX Check for signed.
id1 = create_concat_lpm_data(lpm);
id2 = create_concat_lpm_datab(lpm);
id = new_id();
indent();
fprintf(output, " (lt %i %i %i %i)\n", id, width, id1, id2);
indent();
fprintf(output, " (not %i 1 %i)\n", id_of_nexus(ivl_lpm_q(lpm, 0), 1), id);
break;
case IVL_LPM_FF:
{
ivl_nexus_t async_clr = ivl_lpm_async_clr(lpm);
ivl_nexus_t async_set = ivl_lpm_async_set(lpm);
ivl_nexus_t sync_clr = ivl_lpm_sync_clr(lpm);
ivl_nexus_t sync_set = ivl_lpm_sync_set(lpm);
ivl_nexus_t clk = ivl_lpm_clk(lpm);
ivl_nexus_t enable = ivl_lpm_enable(lpm);
if (async_set || sync_set) { perror("** ERROR: Does not support registers with async or sync sets.\n"); return -1; }
id = new_id();
id1 = create_concat_lpm_data(lpm);
if (enable) {
id2 = new_id();
indent();
fprintf(output, " (mux %i %i %i %i %i)\n", id2, width, id_of_nexus(enable, 0), id, id1);
id1 = id2;
}
if (sync_clr) {
id2 = new_id();
id3 = new_id();
indent();
fprintf(output, " (const %i \"", id3);
for (j = 0; j < width; j++)
fprintf(output, "0");
fprintf(output, "\")\n");
indent();
fprintf(output, " (mux %i %i %i %i %i)\n", id2, width, id_of_nexus(sync_clr, 0), id1, id3);
id1 = id2;
}
// XXX Default to posedge sensitivity.
if (async_clr) {
indent();
fprintf(output, " (ffc %i %i %i %i %i)\n", id, width, id_of_nexus(async_clr, 0), id_of_nexus(clk, 0), id1);
}
else {
indent();
fprintf(output, " (ff %i %i %i %i)\n", id, width, id_of_nexus(clk, 0), id1);
}
create_split_lpm_q(lpm, id);
}
break;
case IVL_LPM_MUX:
{
unsigned t = 1;
selects = ivl_lpm_selects(lpm);
size = ivl_lpm_size(lpm);
for (j = 0; j < selects; j++)
t = t * 2;
assert(t == size); // General case.
id = create_mux(lpm, selects, 0);
create_split_lpm_q(lpm, id);
}
break;
default:
perror("** ERROR: Unsupported LPM type.\n");
return -1;
}
}
level = level + 1;
return_code = ivl_scope_children(scope, build_hierarchy, 0);
level = level - 1;
if (! level)
delete_nexus_table(nexus_table);
indent();
fprintf(output, "))\n");
return return_code;
}
