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Handle new CSV order or parameters and additional validation

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This commit is contained in:
Miodrag Milanovic 2024-07-15 13:38:19 +02:00
parent 382a570c79
commit c63bfcb6f3
1 changed files with 77 additions and 26 deletions
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101
himbaechel/uarch/ng-ultra/csv.cc
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@ -99,31 +99,43 @@ void NgUltraImpl::parse_csv(const std::string &filename)
if (it == std::end(standard_values))
log_error("unknown standard value '%s' in line %d\n", arguments.at(2).c_str(), lineno);
const char* drive_values[] = { "2mA", "4mA", "8mA", "16mA", "I", "II" };
const char* drive_values[] = { "2mA", "4mA", "8mA", "16mA", "CatI", "CatII", "Undefined" };
it = std::find(std::begin(drive_values),std::end(drive_values), arguments.at(3));
if (it == std::end(drive_values))
log_error("unknown drive value '%s' in line %d\n", arguments.at(3).c_str(), lineno);
const char* weak_values[] = { "None", "PullDown", "PullUp", "Keeper" };
it = std::find(std::begin(weak_values),std::end(weak_values), arguments.at(4));
if (it == std::end(weak_values))
const char* slew_values[] = { "Slow", "Medium", "Fast" };
it = std::find(std::begin(slew_values),std::end(slew_values), arguments.at(4));
if (it == std::end(slew_values))
log_error("unknown weak termination value '%s' in line %d\n", arguments.at(4).c_str(), lineno);
const char* slew_values[] = { "Slow", "Medium", "Fast" };
it = std::find(std::begin(slew_values),std::end(slew_values), arguments.at(5));
if (it == std::end(slew_values))
log_error("unknown weak termination value '%s' in line %d\n", arguments.at(5).c_str(), lineno);
if (!arguments.at(5).empty() && !is_number(arguments.at(5))) {
log_error("input delay must be number, value '%s' in line %d\n", arguments.at(5).c_str(), lineno);
int delay = std::stoi(arguments.at(5));
if (delay<0 || delay >63)
log_error("input delay value must be in range from 0 to 63 in line %d\n", lineno);
}
if (!arguments.at(6).empty() && !is_number(arguments.at(6))) {
log_error("output delay must be number, value '%s' in line %d\n", arguments.at(6).c_str(), lineno);
int delay = std::stoi(arguments.at(6));
if (delay<0 || delay >63)
log_error("output delay value must be in range from 0 to 63 in line %d\n", lineno);
}
if (!arguments.at(6).empty() && !is_number(arguments.at(6)))
log_error("termination must be string containing int, value '%s' in line %d\n", arguments.at(6).c_str(), lineno);
if (!arguments.at(7).empty() && arguments.at(7) != "True" && arguments.at(7) != "False")
log_error("differential must be boolean, value '%s' in line %d\n", arguments.at(7).c_str(), lineno);
if (!arguments.at(7).empty() && !is_number(arguments.at(7)))
log_error("input delay must be number, value '%s' in line %d\n", arguments.at(7).c_str(), lineno);
if (!arguments.at(8).empty() && !is_number(arguments.at(8)))
log_error("output delay must be number, value '%s' in line %d\n", arguments.at(8).c_str(), lineno);
const char* weak_values[] = { "None", "PullDown", "PullUp", "Keeper" };
it = std::find(std::begin(weak_values),std::end(weak_values), arguments.at(8));
if (it == std::end(weak_values))
log_error("unknown weak termination value '%s' in line %d\n", arguments.at(8).c_str(), lineno);
if (!arguments.at(9).empty() && arguments.at(9) != "True" && arguments.at(9) != "False")
log_error("differential must be boolean, value '%s' in line %d\n", arguments.at(9).c_str(), lineno);
if (!arguments.at(9).empty() && !is_number(arguments.at(9))) {
log_error("termination must be string containing int, value '%s' in line %d\n", arguments.at(9).c_str(), lineno);
int termination = std::stoi(arguments.at(9));
if (termination<30 || termination >80)
log_error("termination value must be in range from 30 to 80 in line %d\n", lineno);
}
const char* termref_values[] = { "Floating", "VT" };
it = std::find(std::begin(termref_values),std::end(termref_values), arguments.at(10));
@ -143,23 +155,40 @@ void NgUltraImpl::parse_csv(const std::string &filename)
if (it == std::end(registered_values))
log_error("unknown registered value '%s' in line %d\n", arguments.at(14).c_str(), lineno);
if (arguments.at(2)=="LVDS" && arguments.at(3)!="Undefined")
log_error("for port in line %d when standard is 'LVDS' drive must be 'Undefined'\n", lineno);
if (arguments.at(2)=="LVCMOS" && !boost::ends_with(arguments.at(3),"mA"))
log_error("for port in line %d when standard is 'LVCMOS' drive current must be in mA\n", lineno);
if ((arguments.at(2)=="SSTL" || arguments.at(2)=="HSTL") && !boost::starts_with(arguments.at(3),"Cat"))
log_error("for port in line %d when standard is 'SSTL' or 'HSTL' drive current must be in 'CatI' or 'CatII'\n", lineno);
if (arguments.at(10)=="Floating") {
if (!(arguments.at(7) == "True" && arguments.at(8) == "None")) {
log_error("for floating termination, differential myst be 'True' and weakTermination must be 'None' in line %d\n", lineno);
}
}
std::vector<CellInfo *> dest = get_cells(arguments.at(0));
for (auto c : dest) {
c->params[ctx->id("location")] = arguments.at(1);
c->params[ctx->id("iobname")] = arguments.at(0);
c->params[ctx->id("location")] = arguments.at(1);
c->params[ctx->id("standard")] = arguments.at(2);
c->params[ctx->id("drive")] = arguments.at(3);
c->params[ctx->id("weakTermination")] = arguments.at(4);
c->params[ctx->id("slewRate")] = arguments.at(5);
c->params[ctx->id("termination")] = arguments.at(6);
c->params[ctx->id("inputDelayLine")] = arguments.at(7);
c->params[ctx->id("outputDelayLine")] = arguments.at(8);
c->params[ctx->id("differential")] = arguments.at(9);
c->params[ctx->id("slewRate")] = arguments.at(4);
c->params[ctx->id("inputDelayLine")] = arguments.at(5);
c->params[ctx->id("outputDelayLine")] = arguments.at(6);
c->params[ctx->id("inputDelayOn")] = std::string((std::stoi(arguments.at(5))!=0) ? "True" : "False");
c->params[ctx->id("outputDelayOn")] = std::string((std::stoi(arguments.at(6))!=0) ? "True" : "False");
c->params[ctx->id("differential")] = arguments.at(7);
c->params[ctx->id("weakTermination")] = arguments.at(8);
if (!arguments.at(9).empty()) {
c->params[ctx->id("termination")] = arguments.at(9);
c->params[ctx->id("terminationReference")] = arguments.at(10);
}
c->params[ctx->id("turbo")] = arguments.at(11);
c->params[ctx->id("inputSignalSlope")] = arguments.at(12);
c->params[ctx->id("outputCapacity")] = arguments.at(13);
//c->params[ctx->id("IO_PATH")] = arguments.at(14);
c->params[ctx->id("registered")] = arguments.at(14);
}
if (dest.size()==0)
log_warning("Pad with name '%s' not found in netlist.\n", arguments.at(0).c_str());
@ -180,11 +209,33 @@ void NgUltraImpl::parse_csv(const std::string &filename)
if (!boost::starts_with(arguments.at(0), "IOB"))
log_error("wrong bank name '%s' in line %d\n", arguments.at(0).c_str(), lineno);
const char* voltages[] = { "1.5V", "1.8V", "2.5V", "3.3V" };
const char* voltages[] = { "1.2V", "1.5V", "1.8V", "2.5V", "3.3V" };
auto it = std::find(std::begin(voltages),std::end(voltages), arguments.at(1));
if (it == std::end(voltages))
log_error("unknown voltage level '%s' in line %d\n", arguments.at(1).c_str(), lineno);
const char * direct_io_voltages[] = { "1.8V", "2.5V", "3.3V" };
const char * complex_io_voltages[] = { "1.2V", "1.5V", "1.8V" };
int bank = std::stoi(arguments.at(0).substr(3));
switch(bank) {
// direct
case 0:
case 1:
case 6:
case 7:
{
auto it = std::find(std::begin(direct_io_voltages),std::end(direct_io_voltages), arguments.at(1));
if (it == std::end(direct_io_voltages))
log_error("unsupported voltage level '%s' for bank '%s'\n", arguments.at(1).c_str(), arguments.at(0).c_str());
}
break;
// complex
default:
auto it = std::find(std::begin(complex_io_voltages),std::end(complex_io_voltages), arguments.at(1));
if (it == std::end(complex_io_voltages))
log_error("unsupported voltage level '%s' for bank '%s'\n", arguments.at(1).c_str(), arguments.at(0).c_str());
}
bank_voltage[arguments.at(0)] = arguments.at(1);
}
break;