PRIVATE_NAMESPACE_BEGIN
#define EDIF_DEF(_id) edif_names(RTLIL::unescape_id(_id), true).c_str()
-#define EDIF_DEFR(_id, _ren, _del, _bd) edif_names(RTLIL::unescape_id(_id), true, _ren, _del, _bd).c_str()
+#define EDIF_DEFR(_id, _ren, _bl, _br) edif_names(RTLIL::unescape_id(_id), true, _ren, _bl, _br).c_str()
#define EDIF_REF(_id) edif_names(RTLIL::unescape_id(_id), false).c_str()
-static char const edf_defdel[2] = {'[',']'};
-static int const edf_defbd[2] = {0,1};
-
namespace
{
struct EdifNames
{
int counter;
+ char delim_left;
+ char delim_right;
std::set<std::string> generated_names, used_names;
std::map<std::string, std::string> name_map;
- EdifNames() : counter(1) { }
+ EdifNames() : counter(1), delim_left('['), delim_right(']') { }
- std::string operator()(std::string id, bool define, bool always_rename = false, char const delim[2] = edf_defdel, int const bounds[2] = edf_defbd)
+ std::string operator()(std::string id, bool define, bool port_rename = false, int range_left = 0, int range_right = 0)
{
if (define) {
std::string new_id = operator()(id, false);
- if (always_rename)
- return stringf("(rename %s \"%s%c%d:%d%c\")", new_id.c_str(), id.c_str(), delim[0], bounds[0], bounds[1], delim[1]);
+ if (port_rename)
+ return stringf("(rename %s \"%s%c%d:%d%c\")", new_id.c_str(), id.c_str(), delim_left, range_left, range_right, delim_right);
return new_id != id ? stringf("(rename %s \"%s\")", new_id.c_str(), id.c_str()) : id;
}
log(" if the design contains constant nets. use \"hilomap\" to map to custom\n");
log(" constant drivers first)\n");
log("\n");
- log(" -pidx {up|down}\n");
- log(" adds rename clauses to all module ports to line up signal and member indices.\n");
- log(" if it is up, a 24 bit port will be renamed as follows:\n");
- log(" (rename mcu_addr \"mcu_addr[0:23]\")\n");
- log(" if it is down, it will be:\n");
- log(" (rename mcu_addr \"mcu_addr[23:0]\")\n");
- log("\n");
- log(" -parray {par|bra|ang}\n");
+ log(" -pvector {par|bra|ang}\n");
log(" sets the delimiting character for module port rename clauses.\n");
log(" if it is par, The example from above will be:\n");
log(" (rename mcu_addr \"mcu_addr(0:23)\")\n");
log(" otherwise:\n");
log(" (rename mcu_addr \"mcu_addr[0:23]\")\n");
log("\n");
- log(" If neither -parray nor -pidx are given, there will be no port rename clauses.");
- log(" If only one is given, -parray will default to bra and -pidx to up.");
- log("\n");
log("Unfortunately there are different \"flavors\" of the EDIF file format. This\n");
log("command generates EDIF files for the Xilinx place&route tools. It might be\n");
log("necessary to make small modifications to this command when a different tool\n");
{
log_header(design, "Executing EDIF backend.\n");
std::string top_module_name;
- bool always_rename = false;
- char delim[2] = {'[',']'};
- int bounds[2] = {0,1};
+ bool port_rename = false;
std::map<RTLIL::IdString, std::map<RTLIL::IdString, int>> lib_cell_ports;
bool nogndvcc = false;
CellTypes ct(design);
nogndvcc = true;
continue;
}
- if (args[argidx] == "-pidx" && argidx+1 < args.size()) {
- always_rename = true;
- if(args[++argidx] == "down") {
- bounds[0]=1;bounds[1]=0;
- }
- else {
- bounds[0]=0;bounds[1]=1;
- }
- continue;
- }
- if (args[argidx] == "-parray" && argidx+1 < args.size()) {
+ if (args[argidx] == "-pvector" && argidx+1 < args.size()) {
std::string parray;
- always_rename = true;
+ port_rename = true;
parray = args[++argidx];
if (parray == "par") {
- delim[0] = '(';delim[1] = ')';
+ edif_names.delim_left = '(';edif_names.delim_right = ')';
} else if (parray == "ang") {
- delim[0] = '<';delim[1] = '>';
+ edif_names.delim_left = '<';edif_names.delim_right = '>';
} else {
- delim[0] = '[';delim[1] = ']';
+ edif_names.delim_left = '[';edif_names.delim_right = ']';
}
continue;
}
}
if (port_it.second == 1)
*f << stringf(" (port %s (direction %s))\n", EDIF_DEF(port_it.first), dir);
- else
- {
- int bd[2]={0,port_it.second-1};
- int b[2]={bd[bounds[0]],bd[bounds[1]]};
- *f << stringf(" (port (array %s %d) (direction %s))\n", EDIF_DEFR(port_it.first, always_rename, delim, b), port_it.second, dir);
+ else {
+ int b[2] = {0,port_it.second-1};
+ auto m = design->module(cell_it.first);
+ if(m) {
+ auto w = m->wire(port_it.first);
+ if(w) {
+ b[!w->upto] = w->start_offset;
+ b[!!w->upto] = w->start_offset+GetSize(w)-1;
+ }
+ }
+ *f << stringf(" (port (array %s %d) (direction %s))\n", EDIF_DEFR(port_it.first, port_rename, b[0], b[1]), port_it.second, dir);
}
}
*f << stringf(" )\n");
RTLIL::SigSpec sig = sigmap(RTLIL::SigSpec(wire));
net_join_db[sig].insert(stringf("(portRef %s)", EDIF_REF(wire->name)));
} else {
- int bd[2]={0,wire->width-1};
- int b[2]={bd[bounds[0]],bd[bounds[1]]};
- *f << stringf(" (port (array %s %d) (direction %s))\n", EDIF_DEFR(wire->name, always_rename, delim, b), wire->width, dir);
+ int b[2] = {0,wire->width-1};
+ b[!wire->upto] = wire->start_offset;
+ b[!!wire->upto] = wire->start_offset+GetSize(wire)-1;
+ *f << stringf(" (port (array %s %d) (direction %s))\n", EDIF_DEFR(wire->name, port_rename, b[0], b[1]), wire->width, dir);
for (int i = 0; i < wire->width; i++) {
RTLIL::SigSpec sig = sigmap(RTLIL::SigSpec(wire, i));
net_join_db[sig].insert(stringf("(portRef (member %s %d))", EDIF_REF(wire->name), i));
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