/* * nextpnr -- Next Generation Place and Route * * Copyright (C) 2018 David Shah * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. * */ #include "cells.h" #include #include "design_utils.h" #include "log.h" #include "util.h" NEXTPNR_NAMESPACE_BEGIN void add_port(const Context *ctx, CellInfo *cell, std::string name, PortType dir) { IdString id = ctx->id(name); cell->ports[id] = PortInfo{id, nullptr, dir}; } std::unique_ptr create_ecp5_cell(Context *ctx, IdString type, std::string name) { static int auto_idx = 0; std::unique_ptr new_cell = std::unique_ptr(new CellInfo()); if (name.empty()) { new_cell->name = ctx->id("$nextpnr_" + type.str(ctx) + "_" + std::to_string(auto_idx++)); } else { new_cell->name = ctx->id(name); } new_cell->type = type; auto copy_bel_ports = [&]() { // First find a Bel of the target type BelId tgt; for (auto bel : ctx->getBels()) { if (ctx->getBelType(bel) == type) { tgt = bel; break; } } NPNR_ASSERT(tgt != BelId()); for (auto port : ctx->getBelPins(tgt)) { add_port(ctx, new_cell.get(), port.str(ctx), ctx->getBelPinType(tgt, port)); } }; if (type == ctx->id("TRELLIS_SLICE")) { new_cell->params[ctx->id("MODE")] = std::string("LOGIC"); new_cell->params[ctx->id("GSR")] = std::string("DISABLED"); new_cell->params[ctx->id("SRMODE")] = std::string("LSR_OVER_CE"); new_cell->params[ctx->id("CEMUX")] = std::string("1"); new_cell->params[ctx->id("CLKMUX")] = std::string("CLK"); new_cell->params[ctx->id("LSRMUX")] = std::string("LSR"); new_cell->params[ctx->id("LUT0_INITVAL")] = Property(0, 16); new_cell->params[ctx->id("LUT1_INITVAL")] = Property(0, 16); new_cell->params[ctx->id("REG0_SD")] = std::string("0"); new_cell->params[ctx->id("REG1_SD")] = std::string("0"); new_cell->params[ctx->id("REG0_REGSET")] = std::string("RESET"); new_cell->params[ctx->id("REG1_REGSET")] = std::string("RESET"); new_cell->params[ctx->id("CCU2_INJECT1_0")] = std::string("NO"); new_cell->params[ctx->id("CCU2_INJECT1_1")] = std::string("NO"); new_cell->params[ctx->id("WREMUX")] = std::string("WRE"); add_port(ctx, new_cell.get(), "A0", PORT_IN); add_port(ctx, new_cell.get(), "B0", PORT_IN); add_port(ctx, new_cell.get(), "C0", PORT_IN); add_port(ctx, new_cell.get(), "D0", PORT_IN); add_port(ctx, new_cell.get(), "A1", PORT_IN); add_port(ctx, new_cell.get(), "B1", PORT_IN); add_port(ctx, new_cell.get(), "C1", PORT_IN); add_port(ctx, new_cell.get(), "D1", PORT_IN); add_port(ctx, new_cell.get(), "M0", PORT_IN); add_port(ctx, new_cell.get(), "M1", PORT_IN); add_port(ctx, new_cell.get(), "FCI", PORT_IN); add_port(ctx, new_cell.get(), "FXA", PORT_IN); add_port(ctx, new_cell.get(), "FXB", PORT_IN); add_port(ctx, new_cell.get(), "CLK", PORT_IN); add_port(ctx, new_cell.get(), "LSR", PORT_IN); add_port(ctx, new_cell.get(), "CE", PORT_IN); add_port(ctx, new_cell.get(), "DI0", PORT_IN); add_port(ctx, new_cell.get(), "DI1", PORT_IN); add_port(ctx, new_cell.get(), "WD0", PORT_IN); add_port(ctx, new_cell.get(), "WD1", PORT_IN); add_port(ctx, new_cell.get(), "WAD0", PORT_IN); add_port(ctx, new_cell.get(), "WAD1", PORT_IN); add_port(ctx, new_cell.get(), "WAD2", PORT_IN); add_port(ctx, new_cell.get(), "WAD3", PORT_IN); add_port(ctx, new_cell.get(), "WRE", PORT_IN); add_port(ctx, new_cell.get(), "WCK", PORT_IN); add_port(ctx, new_cell.get(), "F0", PORT_OUT); add_port(ctx, new_cell.get(), "Q0", PORT_OUT); add_port(ctx, new_cell.get(), "F1", PORT_OUT); add_port(ctx, new_cell.get(), "Q1", PORT_OUT); add_port(ctx, new_cell.get(), "FCO", PORT_OUT); add_port(ctx, new_cell.get(), "OFX0", PORT_OUT); add_port(ctx, new_cell.get(), "OFX1", PORT_OUT); add_port(ctx, new_cell.get(), "WDO0", PORT_OUT); add_port(ctx, new_cell.get(), "WDO1", PORT_OUT); add_port(ctx, new_cell.get(), "WDO2", PORT_OUT); add_port(ctx, new_cell.get(), "WDO3", PORT_OUT); add_port(ctx, new_cell.get(), "WADO0", PORT_OUT); add_port(ctx, new_cell.get(), "WADO1", PORT_OUT); add_port(ctx, new_cell.get(), "WADO2", PORT_OUT); add_port(ctx, new_cell.get(), "WADO3", PORT_OUT); } else if (type == ctx->id("TRELLIS_IO")) { new_cell->params[ctx->id("DIR")] = std::string("INPUT"); new_cell->attrs[ctx->id("IO_TYPE")] = std::string("LVCMOS33"); new_cell->params[ctx->id("DATAMUX_ODDR")] = std::string("PADDO"); new_cell->params[ctx->id("DATAMUX_MDDR")] = std::string("PADDO"); add_port(ctx, new_cell.get(), "B", PORT_INOUT); add_port(ctx, new_cell.get(), "I", PORT_IN); add_port(ctx, new_cell.get(), "T", PORT_IN); add_port(ctx, new_cell.get(), "O", PORT_OUT); add_port(ctx, new_cell.get(), "IOLDO", PORT_IN); add_port(ctx, new_cell.get(), "IOLTO", PORT_IN); } else if (type == ctx->id("LUT4")) { new_cell->params[ctx->id("INIT")] = Property(0, 16); add_port(ctx, new_cell.get(), "A", PORT_IN); add_port(ctx, new_cell.get(), "B", PORT_IN); add_port(ctx, new_cell.get(), "C", PORT_IN); add_port(ctx, new_cell.get(), "D", PORT_IN); add_port(ctx, new_cell.get(), "Z", PORT_OUT); } else if (type == ctx->id("CCU2C")) { new_cell->params[ctx->id("INIT0")] = Property(0, 16); new_cell->params[ctx->id("INIT1")] = Property(0, 16); new_cell->params[ctx->id("INJECT1_0")] = std::string("YES"); new_cell->params[ctx->id("INJECT1_1")] = std::string("YES"); add_port(ctx, new_cell.get(), "CIN", PORT_IN); add_port(ctx, new_cell.get(), "A0", PORT_IN); add_port(ctx, new_cell.get(), "B0", PORT_IN); add_port(ctx, new_cell.get(), "C0", PORT_IN); add_port(ctx, new_cell.get(), "D0", PORT_IN); add_port(ctx, new_cell.get(), "A1", PORT_IN); add_port(ctx, new_cell.get(), "B1", PORT_IN); add_port(ctx, new_cell.get(), "C1", PORT_IN); add_port(ctx, new_cell.get(), "D1", PORT_IN); add_port(ctx, new_cell.get(), "S0", PORT_OUT); add_port(ctx, new_cell.get(), "S1", PORT_OUT); add_port(ctx, new_cell.get(), "COUT", PORT_OUT); } else if (type == ctx->id("DCCA")) { add_port(ctx, new_cell.get(), "CLKI", PORT_IN); add_port(ctx, new_cell.get(), "CLKO", PORT_OUT); add_port(ctx, new_cell.get(), "CE", PORT_IN); } else if (type == id_IOLOGIC || type == id_SIOLOGIC) { new_cell->params[ctx->id("MODE")] = std::string("NONE"); new_cell->params[ctx->id("GSR")] = std::string("DISABLED"); new_cell->params[ctx->id("CLKIMUX")] = std::string("CLK"); new_cell->params[ctx->id("CLKOMUX")] = std::string("CLK"); new_cell->params[ctx->id("LSRIMUX")] = std::string("0"); new_cell->params[ctx->id("LSROMUX")] = std::string("0"); new_cell->params[ctx->id("LSRMUX")] = std::string("LSR"); new_cell->params[ctx->id("DELAY.OUTDEL")] = std::string("DISABLED"); new_cell->params[ctx->id("DELAY.DEL_VALUE")] = Property(0, 7); new_cell->params[ctx->id("DELAY.WAIT_FOR_EDGE")] = std::string("DISABLED"); if (type == id_IOLOGIC) { new_cell->params[ctx->id("IDDRXN.MODE")] = std::string("NONE"); new_cell->params[ctx->id("ODDRXN.MODE")] = std::string("NONE"); new_cell->params[ctx->id("MIDDRX.MODE")] = std::string("NONE"); new_cell->params[ctx->id("MODDRX.MODE")] = std::string("NONE"); new_cell->params[ctx->id("MTDDRX.MODE")] = std::string("NONE"); new_cell->params[ctx->id("IOLTOMUX")] = std::string("NONE"); new_cell->params[ctx->id("MTDDRX.DQSW_INVERT")] = std::string("DISABLED"); new_cell->params[ctx->id("MTDDRX.REGSET")] = std::string("RESET"); new_cell->params[ctx->id("MIDDRX_MODDRX.WRCLKMUX")] = std::string("NONE"); } // Just copy ports from the Bel copy_bel_ports(); } else if (type == id_TRELLIS_ECLKBUF) { add_port(ctx, new_cell.get(), "ECLKI", PORT_IN); add_port(ctx, new_cell.get(), "ECLKO", PORT_OUT); } else { log_error("unable to create ECP5 cell of type %s", type.c_str(ctx)); } return new_cell; } static void set_param_safe(bool has_ff, CellInfo *lc, IdString name, const std::string &value) { NPNR_ASSERT(!has_ff || lc->params.at(name) == value); lc->params[name] = value; } static void replace_port_safe(bool has_ff, CellInfo *ff, IdString ff_port, CellInfo *lc, IdString lc_port) { if (has_ff) { NPNR_ASSERT(lc->ports.at(lc_port).net == ff->ports.at(ff_port).net); NetInfo *ffnet = ff->ports.at(ff_port).net; if (ffnet != nullptr) ffnet->users.erase( std::remove_if(ffnet->users.begin(), ffnet->users.end(), [ff, ff_port](PortRef port) { return port.cell == ff && port.port == ff_port; }), ffnet->users.end()); } else { replace_port(ff, ff_port, lc, lc_port); } } void ff_to_slice(Context *ctx, CellInfo *ff, CellInfo *lc, int index, bool driven_by_lut) { if (lc->hierpath == IdString()) lc->hierpath = ff->hierpath; bool has_ff = lc->ports.at(ctx->id("Q0")).net != nullptr || lc->ports.at(ctx->id("Q1")).net != nullptr; std::string reg = "REG" + std::to_string(index); set_param_safe(has_ff, lc, ctx->id("SRMODE"), str_or_default(ff->params, ctx->id("SRMODE"), "LSR_OVER_CE")); set_param_safe(has_ff, lc, ctx->id("GSR"), str_or_default(ff->params, ctx->id("GSR"), "DISABLED")); set_param_safe(has_ff, lc, ctx->id("CEMUX"), str_or_default(ff->params, ctx->id("CEMUX"), "1")); set_param_safe(has_ff, lc, ctx->id("LSRMUX"), str_or_default(ff->params, ctx->id("LSRMUX"), "LSR")); set_param_safe(has_ff, lc, ctx->id("CLKMUX"), str_or_default(ff->params, ctx->id("CLKMUX"), "CLK")); lc->params[ctx->id(reg + "_SD")] = std::string(driven_by_lut ? "1" : "0"); lc->params[ctx->id(reg + "_REGSET")] = str_or_default(ff->params, ctx->id("REGSET"), "RESET"); lc->params[ctx->id(reg + "_LSRMODE")] = str_or_default(ff->params, ctx->id("LSRMODE"), "LSR"); replace_port_safe(has_ff, ff, ctx->id("CLK"), lc, ctx->id("CLK")); if (ff->ports.find(ctx->id("LSR")) != ff->ports.end()) replace_port_safe(has_ff, ff, ctx->id("LSR"), lc, ctx->id("LSR")); if (ff->ports.find(ctx->id("CE")) != ff->ports.end()) replace_port_safe(has_ff, ff, ctx->id("CE"), lc, ctx->id("CE")); replace_port(ff, ctx->id("Q"), lc, ctx->id("Q" + std::to_string(index))); if (get_net_or_empty(ff, ctx->id("M")) != nullptr) { // PRLD FFs that use both M and DI NPNR_ASSERT(!driven_by_lut); // As M is used; must route DI through a new LUT lc->params[ctx->id(reg + "_SD")] = std::string("1"); lc->params[ctx->id("LUT" + std::to_string(index) + "_INITVAL")] = Property(0xFF00, 16); replace_port(ff, ctx->id("DI"), lc, ctx->id("D" + std::to_string(index))); replace_port(ff, ctx->id("M"), lc, ctx->id("M" + std::to_string(index))); connect_ports(ctx, lc, ctx->id("F" + std::to_string(index)), lc, ctx->id("DI" + std::to_string(index))); } else { if (driven_by_lut) { replace_port(ff, ctx->id("DI"), lc, ctx->id("DI" + std::to_string(index))); } else { replace_port(ff, ctx->id("DI"), lc, ctx->id("M" + std::to_string(index))); } } } void lut_to_slice(Context *ctx, CellInfo *lut, CellInfo *lc, int index) { if (lc->hierpath == IdString()) lc->hierpath = lut->hierpath; lc->params[ctx->id("LUT" + std::to_string(index) + "_INITVAL")] = get_or_default(lut->params, ctx->id("INIT"), Property(0, 16)); replace_port(lut, ctx->id("A"), lc, ctx->id("A" + std::to_string(index))); replace_port(lut, ctx->id("B"), lc, ctx->id("B" + std::to_string(index))); replace_port(lut, ctx->id("C"), lc, ctx->id("C" + std::to_string(index))); replace_port(lut, ctx->id("D"), lc, ctx->id("D" + std::to_string(index))); replace_port(lut, ctx->id("Z"), lc, ctx->id("F" + std::to_string(index))); } void ccu2c_to_slice(Context *ctx, CellInfo *ccu, CellInfo *lc) { if (lc->hierpath == IdString()) lc->hierpath = ccu->hierpath; lc->params[ctx->id("MODE")] = std::string("CCU2"); lc->params[ctx->id("LUT0_INITVAL")] = get_or_default(ccu->params, ctx->id("INIT0"), Property(0, 16)); lc->params[ctx->id("LUT1_INITVAL")] = get_or_default(ccu->params, ctx->id("INIT1"), Property(0, 16)); lc->params[ctx->id("CCU2_INJECT1_0")] = str_or_default(ccu->params, ctx->id("INJECT1_0"), "YES"); lc->params[ctx->id("CCU2_INJECT1_1")] = str_or_default(ccu->params, ctx->id("INJECT1_1"), "YES"); replace_port(ccu, ctx->id("CIN"), lc, ctx->id("FCI")); replace_port(ccu, ctx->id("A0"), lc, ctx->id("A0")); replace_port(ccu, ctx->id("B0"), lc, ctx->id("B0")); replace_port(ccu, ctx->id("C0"), lc, ctx->id("C0")); replace_port(ccu, ctx->id("D0"), lc, ctx->id("D0")); replace_port(ccu, ctx->id("A1"), lc, ctx->id("A1")); replace_port(ccu, ctx->id("B1"), lc, ctx->id("B1")); replace_port(ccu, ctx->id("C1"), lc, ctx->id("C1")); replace_port(ccu, ctx->id("D1"), lc, ctx->id("D1")); replace_port(ccu, ctx->id("S0"), lc, ctx->id("F0")); replace_port(ccu, ctx->id("S1"), lc, ctx->id("F1")); replace_port(ccu, ctx->id("COUT"), lc, ctx->id("FCO")); } void dram_to_ramw(Context *ctx, CellInfo *ram, CellInfo *lc) { if (lc->hierpath == IdString()) lc->hierpath = ram->hierpath; lc->params[ctx->id("MODE")] = std::string("RAMW"); replace_port(ram, ctx->id("WAD[0]"), lc, ctx->id("D0")); replace_port(ram, ctx->id("WAD[1]"), lc, ctx->id("B0")); replace_port(ram, ctx->id("WAD[2]"), lc, ctx->id("C0")); replace_port(ram, ctx->id("WAD[3]"), lc, ctx->id("A0")); replace_port(ram, ctx->id("DI[0]"), lc, ctx->id("C1")); replace_port(ram, ctx->id("DI[1]"), lc, ctx->id("A1")); replace_port(ram, ctx->id("DI[2]"), lc, ctx->id("D1")); replace_port(ram, ctx->id("DI[3]"), lc, ctx->id("B1")); } static unsigned get_dram_init(const Context *ctx, const CellInfo *ram, int bit) { auto init_prop = get_or_default(ram->params, ctx->id("INITVAL"), Property(0, 64)); NPNR_ASSERT(!init_prop.is_string); const std::string &idata = init_prop.str; NPNR_ASSERT(idata.length() == 64); unsigned value = 0; for (int i = 0; i < 16; i++) { char c = idata.at(4 * i + bit); if (c == '1') value |= (1 << i); else NPNR_ASSERT(c == '0' || c == 'x'); } return value; } void dram_to_ram_slice(Context *ctx, CellInfo *ram, CellInfo *lc, CellInfo *ramw, int index) { if (lc->hierpath == IdString()) lc->hierpath = ram->hierpath; lc->params[ctx->id("MODE")] = std::string("DPRAM"); lc->params[ctx->id("WREMUX")] = str_or_default(ram->params, ctx->id("WREMUX"), "WRE"); lc->params[ctx->id("WCKMUX")] = str_or_default(ram->params, ctx->id("WCKMUX"), "WCK"); unsigned permuted_init0 = 0, permuted_init1 = 0; unsigned init0 = get_dram_init(ctx, ram, index * 2), init1 = get_dram_init(ctx, ram, index * 2 + 1); for (int i = 0; i < 16; i++) { int permuted_addr = 0; if (i & 1) permuted_addr |= 8; if (i & 2) permuted_addr |= 2; if (i & 4) permuted_addr |= 4; if (i & 8) permuted_addr |= 1; if (init0 & (1 << permuted_addr)) permuted_init0 |= (1 << i); if (init1 & (1 << permuted_addr)) permuted_init1 |= (1 << i); } lc->params[ctx->id("LUT0_INITVAL")] = Property(permuted_init0, 16); lc->params[ctx->id("LUT1_INITVAL")] = Property(permuted_init1, 16); if (ram->ports.count(ctx->id("RAD[0]"))) { connect_port(ctx, ram->ports.at(ctx->id("RAD[0]")).net, lc, ctx->id("D0")); connect_port(ctx, ram->ports.at(ctx->id("RAD[0]")).net, lc, ctx->id("D1")); } if (ram->ports.count(ctx->id("RAD[1]"))) { connect_port(ctx, ram->ports.at(ctx->id("RAD[1]")).net, lc, ctx->id("B0")); connect_port(ctx, ram->ports.at(ctx->id("RAD[1]")).net, lc, ctx->id("B1")); } if (ram->ports.count(ctx->id("RAD[2]"))) { connect_port(ctx, ram->ports.at(ctx->id("RAD[2]")).net, lc, ctx->id("C0")); connect_port(ctx, ram->ports.at(ctx->id("RAD[2]")).net, lc, ctx->id("C1")); } if (ram->ports.count(ctx->id("RAD[3]"))) { connect_port(ctx, ram->ports.at(ctx->id("RAD[3]")).net, lc, ctx->id("A0")); connect_port(ctx, ram->ports.at(ctx->id("RAD[3]")).net, lc, ctx->id("A1")); } if (ram->ports.count(ctx->id("WRE"))) connect_port(ctx, ram->ports.at(ctx->id("WRE")).net, lc, ctx->id("WRE")); if (ram->ports.count(ctx->id("WCK"))) connect_port(ctx, ram->ports.at(ctx->id("WCK")).net, lc, ctx->id("WCK")); connect_ports(ctx, ramw, id_WADO0, lc, id_WAD0); connect_ports(ctx, ramw, id_WADO1, lc, id_WAD1); connect_ports(ctx, ramw, id_WADO2, lc, id_WAD2); connect_ports(ctx, ramw, id_WADO3, lc, id_WAD3); if (index == 0) { connect_ports(ctx, ramw, id_WDO0, lc, id_WD0); connect_ports(ctx, ramw, id_WDO1, lc, id_WD1); replace_port(ram, ctx->id("DO[0]"), lc, id_F0); replace_port(ram, ctx->id("DO[1]"), lc, id_F1); } else if (index == 1) { connect_ports(ctx, ramw, id_WDO2, lc, id_WD0); connect_ports(ctx, ramw, id_WDO3, lc, id_WD1); replace_port(ram, ctx->id("DO[2]"), lc, id_F0); replace_port(ram, ctx->id("DO[3]"), lc, id_F1); } else { NPNR_ASSERT_FALSE("bad DPRAM index"); } } void nxio_to_tr(Context *ctx, CellInfo *nxio, CellInfo *trio, std::vector> &created_cells, std::unordered_set &todelete_cells) { if (nxio->type == ctx->id("$nextpnr_ibuf")) { trio->params[ctx->id("DIR")] = std::string("INPUT"); replace_port(nxio, ctx->id("O"), trio, ctx->id("O")); } else if (nxio->type == ctx->id("$nextpnr_obuf")) { trio->params[ctx->id("DIR")] = std::string("OUTPUT"); replace_port(nxio, ctx->id("I"), trio, ctx->id("I")); } else if (nxio->type == ctx->id("$nextpnr_iobuf")) { // N.B. tristate will be dealt with below NetInfo *i = get_net_or_empty(nxio, ctx->id("I")); if (i == nullptr || i->driver.cell == nullptr) trio->params[ctx->id("DIR")] = std::string("INPUT"); else { log_info("%s: %s.%s\n", ctx->nameOf(i), ctx->nameOf(i->driver.cell), ctx->nameOf(i->driver.port)); trio->params[ctx->id("DIR")] = std::string("BIDIR"); } replace_port(nxio, ctx->id("I"), trio, ctx->id("I")); replace_port(nxio, ctx->id("O"), trio, ctx->id("O")); } else { NPNR_ASSERT(false); } NetInfo *donet = trio->ports.at(ctx->id("I")).net, *dinet = trio->ports.at(ctx->id("O")).net; // Rename I/O nets to avoid conflicts if (donet != nullptr && donet->name == nxio->name) rename_net(ctx, donet, ctx->id(donet->name.str(ctx) + "$TRELLIS_IO_OUT")); if (dinet != nullptr && dinet->name == nxio->name) rename_net(ctx, dinet, ctx->id(dinet->name.str(ctx) + "$TRELLIS_IO_IN")); if (ctx->nets.count(nxio->name)) { int i = 0; IdString new_name; do { new_name = ctx->id(nxio->name.str(ctx) + "$rename$" + std::to_string(i++)); } while (ctx->nets.count(new_name)); rename_net(ctx, ctx->nets.at(nxio->name).get(), new_name); } // Create a new top port net for accurate IO timing analysis and simulation netlists if (ctx->ports.count(nxio->name)) { IdString tn_netname = nxio->name; NPNR_ASSERT(!ctx->nets.count(tn_netname)); std::unique_ptr toplevel_net{new NetInfo}; toplevel_net->name = tn_netname; connect_port(ctx, toplevel_net.get(), trio, ctx->id("B")); ctx->ports[nxio->name].net = toplevel_net.get(); ctx->nets[tn_netname] = std::move(toplevel_net); } CellInfo *tbuf = net_driven_by( ctx, donet, [](const Context *ctx, const CellInfo *cell) { return cell->type == ctx->id("$_TBUF_"); }, ctx->id("Y")); if (tbuf) { replace_port(tbuf, ctx->id("A"), trio, ctx->id("I")); // Need to invert E to form T std::unique_ptr inv_lut = create_ecp5_cell(ctx, ctx->id("LUT4"), trio->name.str(ctx) + "$invert_T"); replace_port(tbuf, ctx->id("E"), inv_lut.get(), ctx->id("A")); inv_lut->params[ctx->id("INIT")] = Property(21845, 16); connect_ports(ctx, inv_lut.get(), ctx->id("Z"), trio, ctx->id("T")); created_cells.push_back(std::move(inv_lut)); if (donet->users.size() > 1) { for (auto user : donet->users) log_info(" remaining tristate user: %s.%s\n", user.cell->name.c_str(ctx), user.port.c_str(ctx)); log_error("unsupported tristate IO pattern for IO buffer '%s', " "instantiate SB_IO manually to ensure correct behaviour\n", nxio->name.c_str(ctx)); } ctx->nets.erase(donet->name); todelete_cells.insert(tbuf->name); } } NEXTPNR_NAMESPACE_END