/* * nextpnr -- Next Generation Place and Route * * Copyright (C) 2020 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 "log.h" #include "nextpnr.h" #include "util.h" NEXTPNR_NAMESPACE_BEGIN namespace { struct NexusFasmWriter { const Context *ctx; std::ostream &out; std::vector fasm_ctx; void push(const std::string &x) { fasm_ctx.push_back(x); } void pop() { fasm_ctx.pop_back(); } void pop(int N) { for (int i = 0; i < N; i++) fasm_ctx.pop_back(); } bool last_was_blank = true; void blank() { if (!last_was_blank) out << std::endl; last_was_blank = true; } void write_prefix() { for (auto &x : fasm_ctx) out << x << "."; last_was_blank = false; } void write_bit(const std::string &name, bool value = true) { if (value) { write_prefix(); out << name << std::endl; } } void write_comment(const std::string &cmt) { out << "# " << cmt << std::endl; } void write_vector(const std::string &name, const std::vector &value, bool invert = false) { write_prefix(); out << name << " = " << int(value.size()) << "'b"; for (auto bit : boost::adaptors::reverse(value)) out << ((bit ^ invert) ? '1' : '0'); out << std::endl; } void write_int_vector(const std::string &name, uint64_t value, int width, bool invert = false) { std::vector bits(width, false); for (int i = 0; i < width; i++) bits[i] = (value & (1ULL << i)) != 0; write_vector(name, bits, invert); } void write_enum(const CellInfo *cell, const std::string &name, const std::string &defval = "") { auto fnd = cell->params.find(ctx->id(name)); if (fnd == cell->params.end()) { if (!defval.empty()) write_bit(stringf("%s.%s", name.c_str(), defval.c_str())); } else { write_bit(stringf("%s.%s", name.c_str(), fnd->second.c_str())); } } NexusFasmWriter(const Context *ctx, std::ostream &out) : ctx(ctx), out(out) {} std::string tile_name(int loc, const PhysicalTileInfoPOD &tile) { int r = loc / ctx->chip_info->width; int c = loc % ctx->chip_info->width; return stringf("%sR%dC%d__%s", ctx->nameOf(tile.prefix), r, c, ctx->nameOf(tile.tiletype)); } const PhysicalTileInfoPOD &tile_by_type_and_loc(int loc, IdString type) { auto &ploc = ctx->chip_info->grid[loc]; for (int i = 0; i < ploc.num_phys_tiles; i++) { if (ploc.phys_tiles[i].tiletype == type.index) return ploc.phys_tiles[i]; } log_error("No tile of type %s found at location R%dC%d", ctx->nameOf(type), loc / ctx->chip_info->width, loc % ctx->chip_info->width); } std::string escape_name(const std::string &name) { std::string escaped; for (char c : name) { if (c == ':') escaped += "__"; else escaped += c; } return escaped; } void push_tile(int loc, IdString tile_type) { push(tile_name(loc, tile_by_type_and_loc(loc, tile_type))); } void write_pip(PipId pip) { auto &pd = ctx->pip_data(pip); if (pd.flags & PIP_FIXED_CONN) return; std::string tile = tile_name(pip.tile, tile_by_type_and_loc(pip.tile, pd.tile_type)); std::string source_wire = escape_name(ctx->pip_src_wire_name(pip).str(ctx)); std::string dest_wire = escape_name(ctx->pip_src_wire_name(pip).str(ctx)); write_bit(stringf("%s.PIP.%s.%s", tile.c_str(), dest_wire.c_str(), source_wire.c_str())); } void write_net(const NetInfo *net) { write_comment(stringf("Net %s", ctx->nameOf(net))); std::set sorted_pips; for (auto &w : net->wires) sorted_pips.insert(w.second.pip); for (auto p : sorted_pips) write_pip(p); blank(); } void write_comb(const CellInfo *cell) { BelId bel = cell->bel; int z = ctx->bel_data(bel).z; int k = z & 0x1; char slice = 'A' + (z >> 8); push_tile(bel.tile, id_PLC); push(stringf("SLICE%c", slice)); if (cell->params.count(id_INIT)) write_int_vector(stringf("K%d.INIT", k), int_or_default(cell->params, id_INIT, 0), 16); if (cell->lutInfo.is_carry) { write_bit("MODE.CCU2"); write_enum(cell, "INJECT", "NO"); } pop(2); } void write_ff(const CellInfo *cell) { BelId bel = cell->bel; int z = ctx->bel_data(bel).z; int k = z & 0x1; char slice = 'A' + (z >> 8); push_tile(bel.tile, id_PLC); push(stringf("SLICE%c", slice)); push(stringf("FF%d", k)); write_bit("USED.YES"); write_enum(cell, "REGSET", "RESET"); write_enum(cell, "LSRMODE", "LSR"); write_enum(cell, "SEL", "DF"); pop(); write_enum(cell, "REGDDR"); write_enum(cell, "SRMODE"); write_enum(cell, "CLKMUX"); write_enum(cell, "CEMUX"); write_enum(cell, "LSRMUX"); write_enum(cell, "GSR"); pop(2); } void operator()() { // Write routing for (auto n : sorted(ctx->nets)) { write_net(n.second); } // Write cell config for (auto c : sorted(ctx->cells)) { const CellInfo *ci = c.second; write_comment(stringf("# Cell %s", ctx->nameOf(ci))); if (ci->type == id_OXIDE_COMB) write_comb(ci); else if (ci->type == id_OXIDE_FF) write_ff(ci); blank(); } } }; } // namespace void Arch::write_fasm(std::ostream &out) const { NexusFasmWriter(getCtx(), out)(); } NEXTPNR_NAMESPACE_END