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|
/*
* nextpnr -- Next Generation Place and Route
*
* Copyright (C) 2018 Claire Xenia Wolf <claire@yosyshq.com>
* Copyright (C) 2018 gatecat <gatecat@ds0.me>
* Copyright (C) 2018 Serge Bazanski <q3k@q3k.org>
*
* 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 "bitstream.h"
#include <cctype>
#include <vector>
#include "cells.h"
#include "log.h"
#include "util.h"
NEXTPNR_NAMESPACE_BEGIN
inline TileType tile_at(const Context *ctx, int x, int y)
{
return ctx->chip_info->tile_grid[y * ctx->chip_info->width + x];
}
const ConfigEntryPOD &find_config(const TileInfoPOD &tile, const std::string &name)
{
for (auto &entry : tile.entries) {
if (std::string(entry.name.get()) == name) {
return entry;
}
}
NPNR_ASSERT_FALSE_STR("unable to find config bit " + name);
}
std::tuple<int8_t, int8_t, int8_t> get_ieren(const BitstreamInfoPOD &bi, int8_t x, int8_t y, int8_t z)
{
for (auto &ie : bi.ierens) {
if (ie.iox == x && ie.ioy == y && ie.ioz == z) {
return std::make_tuple(ie.ierx, ie.iery, ie.ierz);
}
}
// No pin at this location
return std::make_tuple(-1, -1, -1);
};
bool get_config(const TileInfoPOD &ti, std::vector<std::vector<int8_t>> &tile_cfg, const std::string &name,
int index = -1)
{
const ConfigEntryPOD &cfg = find_config(ti, name);
if (index == -1) {
for (auto &bit : cfg.bits) {
return tile_cfg.at(bit.row).at(bit.col);
}
} else {
return tile_cfg.at(cfg.bits[index].row).at(cfg.bits[index].col);
}
return false;
}
void set_config(const TileInfoPOD &ti, std::vector<std::vector<int8_t>> &tile_cfg, const std::string &name, bool value,
int index = -1)
{
const ConfigEntryPOD &cfg = find_config(ti, name);
if (index == -1) {
for (auto &bit : cfg.bits) {
int8_t &cbit = tile_cfg.at(bit.row).at(bit.col);
if (cbit && !value)
log_error("clearing already set config bit %s\n", name.c_str());
cbit = value;
}
} else {
int8_t &cbit = tile_cfg.at(cfg.bits[index].row).at(cfg.bits[index].col);
cbit = value;
if (cbit && !value)
log_error("clearing already set config bit %s[%d]\n", name.c_str(), index);
}
}
// Set an IE_{EN,REN} logical bit in a tile config. Logical means enabled.
// On {HX,LP}1K devices these bits are active low, so we need to invert them.
void set_ie_bit_logical(const Context *ctx, const TileInfoPOD &ti, std::vector<std::vector<int8_t>> &tile_cfg,
const std::string &name, bool value)
{
if (ctx->args.type == ArchArgs::LP1K || ctx->args.type == ArchArgs::HX1K) {
set_config(ti, tile_cfg, name, !value);
} else {
set_config(ti, tile_cfg, name, value);
}
}
int get_param_or_def(const Context *ctx, const CellInfo *cell, const IdString param, int defval = 0)
{
auto found = cell->params.find(param);
if (found != cell->params.end()) {
if (found->second.is_string)
log_error("expected numeric value for parameter '%s' on cell '%s'\n", param.c_str(ctx),
cell->name.c_str(ctx));
return found->second.as_int64();
} else
return defval;
}
std::string get_param_str_or_def(const CellInfo *cell, const IdString param, std::string defval = "")
{
auto found = cell->params.find(param);
if (found != cell->params.end())
return found->second.as_string();
else
return defval;
}
char get_hexdigit(int i) { return std::string("0123456789ABCDEF").at(i); }
static const BelConfigPOD &get_ec_config(const ChipInfoPOD *chip, BelId bel)
{
for (auto &cfg : chip->bel_config) {
if (cfg.bel_index == bel.index)
return cfg;
}
NPNR_ASSERT_FALSE("failed to find bel config");
}
typedef std::vector<std::vector<std::vector<std::vector<int8_t>>>> chipconfig_t;
static bool has_ec_cbit(const BelConfigPOD &cell_cbits, std::string name)
{
for (auto &cbit : cell_cbits.entries) {
if (cbit.entry_name.get() == name)
return true;
}
return false;
}
static void set_ec_cbit(chipconfig_t &config, const Context *ctx, const BelConfigPOD &cell_cbits, std::string name,
bool value, std::string prefix)
{
const ChipInfoPOD *chip = ctx->chip_info;
for (auto &cbit : cell_cbits.entries) {
if (cbit.entry_name.get() == name) {
const auto &ti = chip->bits_info->tiles_nonrouting[tile_at(ctx, cbit.x, cbit.y)];
set_config(ti, config.at(cbit.y).at(cbit.x), prefix + cbit.cbit_name.get(), value);
return;
}
}
NPNR_ASSERT_FALSE_STR("failed to config extra cell config bit " + name);
}
void configure_extra_cell(chipconfig_t &config, const Context *ctx, CellInfo *cell,
const std::vector<std::pair<std::string, int>> ¶ms, bool string_style, std::string prefix)
{
const ChipInfoPOD *chip = ctx->chip_info;
const auto &bc = get_ec_config(chip, cell->bel);
for (auto p : params) {
std::vector<bool> value;
if (string_style) {
// Lattice's weird string style params, not sure if
// prefixes other than 0b should be supported, only 0b features in docs
if (cell->params.count(ctx->id(p.first)) && !cell->params.at(ctx->id(p.first)).is_string)
log_error("expected configuration string starting with '0b' for parameter '%s' on cell '%s'\n",
p.first.c_str(), cell->name.c_str(ctx));
std::string raw = get_param_str_or_def(cell, ctx->id(p.first), "0b0");
if (raw.substr(0, 2) != "0b")
log_error("expected configuration string starting with '0b' for parameter '%s' on cell '%s'\n",
p.first.c_str(), cell->name.c_str(ctx));
raw = raw.substr(2);
value.resize(raw.length());
for (int i = 0; i < (int)raw.length(); i++) {
if (raw[i] == '1') {
value[(raw.length() - 1) - i] = 1;
} else {
assert(raw[i] == '0');
value[(raw.length() - 1) - i] = 0;
}
}
} else {
int ival;
try {
ival = get_param_or_def(ctx, cell, ctx->id(p.first), 0);
} catch (std::exception &e) {
log_error("expected numeric value for parameter '%s' on cell '%s'\n", p.first.c_str(),
cell->name.c_str(ctx));
}
for (int i = 0; i < p.second; i++)
value.push_back((ival >> i) & 0x1);
}
value.resize(p.second);
if ((p.second == 1) || !has_ec_cbit(bc, p.first + "_0")) {
set_ec_cbit(config, ctx, bc, p.first, value.at(0), prefix);
} else {
for (int i = 0; i < p.second; i++) {
set_ec_cbit(config, ctx, bc, p.first + "_" + std::to_string(i), value.at(i), prefix);
}
}
}
}
std::string tagTileType(TileType &tile)
{
if (tile == TILE_NONE)
return "";
switch (tile) {
case TILE_LOGIC:
return ".logic_tile";
break;
case TILE_IO:
return ".io_tile";
break;
case TILE_RAMB:
return ".ramb_tile";
break;
case TILE_RAMT:
return ".ramt_tile";
break;
case TILE_DSP0:
return ".dsp0_tile";
break;
case TILE_DSP1:
return ".dsp1_tile";
break;
case TILE_DSP2:
return ".dsp2_tile";
break;
case TILE_DSP3:
return ".dsp3_tile";
break;
case TILE_IPCON:
return ".ipcon_tile";
break;
default:
NPNR_ASSERT(false);
}
}
static BelPin get_one_bel_pin(const Context *ctx, WireId wire)
{
auto pins = ctx->getWireBelPins(wire);
NPNR_ASSERT(pins.begin() != pins.end());
return *pins.begin();
}
// Permute LUT init value given map (LUT input -> ext input)
unsigned permute_lut(unsigned orig_init, const dict<int, int> &input_permute)
{
unsigned new_init = 0;
for (int i = 0; i < 16; i++) {
int permute_address = 0;
for (int j = 0; j < 4; j++) {
if ((i >> j) & 0x1)
permute_address |= (1 << input_permute.at(j));
}
if ((orig_init >> i) & 0x1) {
new_init |= (1 << permute_address);
}
}
return new_init;
}
void write_asc(const Context *ctx, std::ostream &out)
{
static const std::vector<int> lut_perm = {
4, 14, 15, 5, 6, 16, 17, 7, 3, 13, 12, 2, 1, 11, 10, 0,
};
// [y][x][row][col]
const ChipInfoPOD &ci = *ctx->chip_info;
const BitstreamInfoPOD &bi = *ci.bits_info;
chipconfig_t config;
config.resize(ci.height);
for (int y = 0; y < ci.height; y++) {
config.at(y).resize(ci.width);
for (int x = 0; x < ci.width; x++) {
TileType tile = tile_at(ctx, x, y);
int rows = bi.tiles_nonrouting[tile].rows;
int cols = bi.tiles_nonrouting[tile].cols;
config.at(y).at(x).resize(rows, std::vector<int8_t>(cols));
}
}
std::vector<std::tuple<int, int, int>> extra_bits;
out << ".comment from next-pnr" << std::endl;
switch (ctx->args.type) {
case ArchArgs::LP384:
out << ".device 384" << std::endl;
break;
case ArchArgs::HX1K:
case ArchArgs::LP1K:
out << ".device 1k" << std::endl;
break;
case ArchArgs::HX4K:
case ArchArgs::LP4K:
case ArchArgs::HX8K:
case ArchArgs::LP8K:
out << ".device 8k" << std::endl;
break;
case ArchArgs::UP3K:
case ArchArgs::UP5K:
out << ".device 5k" << std::endl;
break;
case ArchArgs::U1K:
case ArchArgs::U2K:
case ArchArgs::U4K:
out << ".device u4k" << std::endl;
break;
default:
NPNR_ASSERT_FALSE("unsupported device type\n");
}
// Set pips
for (auto pip : ctx->getPips()) {
if (ctx->pip_to_net[pip.index] != nullptr) {
const PipInfoPOD &pi = ci.pip_data[pip.index];
const SwitchInfoPOD &swi = bi.switches[pi.switch_index];
int sw_bel_idx = swi.bel;
if (sw_bel_idx >= 0) {
const BelInfoPOD &beli = ci.bel_data[sw_bel_idx];
const TileInfoPOD &ti = bi.tiles_nonrouting[TILE_LOGIC];
BelId sw_bel;
sw_bel.index = sw_bel_idx;
NPNR_ASSERT(ctx->getBelType(sw_bel) == id_ICESTORM_LC);
if (ci.wire_data[ctx->getPipDstWire(pip).index].type == WireInfoPOD::WIRE_TYPE_LUTFF_IN_LUT)
continue; // Permutation pips
BelPin output = get_one_bel_pin(ctx, ctx->getPipDstWire(pip));
NPNR_ASSERT(output.bel == sw_bel && output.pin == id_O);
unsigned lut_init;
WireId permWire;
for (auto permPip : ctx->getPipsUphill(ctx->getPipSrcWire(pip))) {
if (ctx->getBoundPipNet(permPip) != nullptr) {
permWire = ctx->getPipSrcWire(permPip);
}
}
NPNR_ASSERT(permWire != WireId());
std::string dName = ci.wire_data[permWire.index].name.get();
switch (dName.back()) {
case '0':
lut_init = 2;
break;
case '1':
lut_init = 4;
break;
case '2':
lut_init = 16;
break;
case '3':
lut_init = 256;
break;
default:
NPNR_ASSERT_FALSE("bad feedthru LUT input");
}
std::vector<bool> lc(20, false);
for (int i = 0; i < 16; i++) {
if ((lut_init >> i) & 0x1)
lc.at(lut_perm.at(i)) = true;
}
for (int i = 0; i < 20; i++)
set_config(ti, config.at(beli.y).at(beli.x), "LC_" + std::to_string(beli.z), lc.at(i), i);
} else {
for (int i = 0; i < swi.num_bits; i++) {
bool val = (pi.switch_mask & (1 << ((swi.num_bits - 1) - i))) != 0;
int8_t &cbit = config.at(swi.y).at(swi.x).at(swi.cbits[i].row).at(swi.cbits[i].col);
if (bool(cbit) != 0)
NPNR_ASSERT(false);
cbit = val;
}
}
}
}
// Scan for PLL and collects the affected SB_IOs
pool<Loc> sb_io_used_by_pll_out;
pool<Loc> sb_io_used_by_pll_pad;
for (auto &cell : ctx->cells) {
if (cell.second->type != id_ICESTORM_PLL)
continue;
// Collect all locations matching an PLL output port
// note: It doesn't matter if the port is connected or not, or if fabric/global
// is used. As long as it's a PLL type for which the port exists, the SB_IO
// is not available and must be configured for PLL mode
const std::vector<IdString> ports = {id_PLLOUT_A, id_PLLOUT_B};
for (auto &port : ports) {
// If the output is not enabled in this mode, ignore it
if (port == id_PLLOUT_B && !is_sb_pll40_dual(ctx, cell.second.get()))
continue;
// Get IO Bel that this PLL port goes through by finding sibling
// Bel driving the same wire via PIN_D_IN_0.
auto wire = ctx->getBelPinWire(cell.second->bel, port);
BelId io_bel;
for (auto pin : ctx->getWireBelPins(wire)) {
if (pin.pin == id_D_IN_0) {
io_bel = pin.bel;
break;
}
}
NPNR_ASSERT(io_bel.index != -1);
auto io_bel_loc = ctx->getBelLocation(io_bel);
// Mark this SB_IO as being used by a PLL output path
sb_io_used_by_pll_out.insert(io_bel_loc);
// If this is a PAD PLL, and this is the 'PLLOUT_A' port, then the same SB_IO is also PAD
if (port == id_PLLOUT_A && is_sb_pll40_pad(ctx, cell.second.get()))
sb_io_used_by_pll_pad.insert(io_bel_loc);
}
}
// Set logic cell config
for (auto &cell : ctx->cells) {
BelId bel = cell.second.get()->bel;
if (bel == BelId()) {
std::cout << "Found unplaced cell " << cell.first.str(ctx) << " while generating bitstream!" << std::endl;
continue;
}
if (cell.second->type == id_ICESTORM_LC) {
const BelInfoPOD &beli = ci.bel_data[bel.index];
int x = beli.x, y = beli.y, z = beli.z;
const TileInfoPOD &ti = bi.tiles_nonrouting[TILE_LOGIC];
unsigned lut_init = get_param_or_def(ctx, cell.second.get(), id_LUT_INIT);
bool neg_clk = get_param_or_def(ctx, cell.second.get(), id_NEG_CLK);
bool dff_enable = get_param_or_def(ctx, cell.second.get(), id_DFF_ENABLE);
bool async_sr = get_param_or_def(ctx, cell.second.get(), id_ASYNC_SR);
bool set_noreset = get_param_or_def(ctx, cell.second.get(), id_SET_NORESET);
bool carry_enable = get_param_or_def(ctx, cell.second.get(), id_CARRY_ENABLE);
std::vector<bool> lc(20, false);
// Discover permutation
dict<int, int> input_perm;
std::set<int> unused;
for (int i = 0; i < 4; i++)
unused.insert(i);
for (int i = 0; i < 4; i++) {
WireId lut_wire = ctx->getBelPinWire(bel, IdString(ID_I0 + i));
for (auto pip : ctx->getPipsUphill(lut_wire)) {
if (ctx->getBoundPipNet(pip) != nullptr) {
std::string name = ci.wire_data[ctx->getPipSrcWire(pip).index].name.get();
switch (name.back()) {
case '0':
input_perm[i] = 0;
unused.erase(0);
break;
case '1':
input_perm[i] = 1;
unused.erase(1);
break;
case '2':
input_perm[i] = 2;
unused.erase(2);
break;
case '3':
input_perm[i] = 3;
unused.erase(3);
break;
default:
NPNR_ASSERT_FALSE("failed to determine LUT permutation");
}
break;
}
}
}
for (int i = 0; i < 4; i++) {
if (!input_perm.count(i)) {
NPNR_ASSERT(!unused.empty());
input_perm[i] = *(unused.begin());
unused.erase(input_perm[i]);
}
}
lut_init = permute_lut(lut_init, input_perm);
for (int i = 0; i < 16; i++) {
if ((lut_init >> i) & 0x1)
lc.at(lut_perm.at(i)) = true;
}
lc.at(8) = carry_enable;
lc.at(9) = dff_enable;
lc.at(18) = set_noreset;
lc.at(19) = async_sr;
for (int i = 0; i < 20; i++)
set_config(ti, config.at(y).at(x), "LC_" + std::to_string(z), lc.at(i), i);
if (dff_enable)
set_config(ti, config.at(y).at(x), "NegClk", neg_clk);
bool carry_const = get_param_or_def(ctx, cell.second.get(), id_CIN_CONST);
bool carry_set = get_param_or_def(ctx, cell.second.get(), id_CIN_SET);
if (carry_const) {
if (!ctx->force)
NPNR_ASSERT(z == 0);
set_config(ti, config.at(y).at(x), "CarryInSet", carry_set);
}
} else if (cell.second->type == id_SB_IO) {
const BelInfoPOD &beli = ci.bel_data[bel.index];
int x = beli.x, y = beli.y, z = beli.z;
const TileInfoPOD &ti = bi.tiles_nonrouting[TILE_IO];
unsigned pin_type = get_param_or_def(ctx, cell.second.get(), id_PIN_TYPE);
bool neg_trigger = get_param_or_def(ctx, cell.second.get(), id_NEG_TRIGGER);
bool pullup = get_param_or_def(ctx, cell.second.get(), id_PULLUP);
bool lvds = cell.second->ioInfo.lvds;
bool used_by_pll_out = sb_io_used_by_pll_out.count(Loc(x, y, z)) > 0;
bool used_by_pll_pad = sb_io_used_by_pll_pad.count(Loc(x, y, z)) > 0;
for (int i = used_by_pll_out ? 2 : 0; i < 6; i++) {
bool val = (pin_type >> i) & 0x01;
set_config(ti, config.at(y).at(x), "IOB_" + std::to_string(z) + ".PINTYPE_" + std::to_string(i), val);
}
set_config(ti, config.at(y).at(x), "NegClk", neg_trigger);
bool input_en = false;
if ((ctx->wire_to_net[ctx->getBelPinWire(bel, id_D_IN_0).index] != nullptr) ||
(ctx->wire_to_net[ctx->getBelPinWire(bel, id_D_IN_1).index] != nullptr)) {
input_en = true;
}
input_en = (input_en & !used_by_pll_out) | used_by_pll_pad;
input_en |= cell.second->ioInfo.global;
if (!lvds) {
auto ieren = get_ieren(bi, x, y, z);
int iex, iey, iez;
std::tie(iex, iey, iez) = ieren;
NPNR_ASSERT(iez != -1);
if (ctx->args.type == ArchArgs::LP1K || ctx->args.type == ArchArgs::HX1K) {
set_config(ti, config.at(iey).at(iex), "IoCtrl.IE_" + std::to_string(iez), !input_en);
set_config(ti, config.at(iey).at(iex), "IoCtrl.REN_" + std::to_string(iez), !pullup);
} else {
set_config(ti, config.at(iey).at(iex), "IoCtrl.IE_" + std::to_string(iez), input_en);
set_config(ti, config.at(iey).at(iex), "IoCtrl.REN_" + std::to_string(iez), !pullup);
}
if (ctx->args.type == ArchArgs::UP5K || ctx->args.type == ArchArgs::UP3K) {
std::string pullup_resistor = "100K";
if (cell.second->attrs.count(id_PULLUP_RESISTOR))
pullup_resistor = cell.second->attrs.at(id_PULLUP_RESISTOR).as_string();
NPNR_ASSERT(pullup_resistor == "100K" || pullup_resistor == "10K" || pullup_resistor == "6P8K" ||
pullup_resistor == "3P3K");
if (iez == 0) {
set_config(ti, config.at(iey).at(iex), "IoCtrl.cf_bit_39",
(!pullup) || (pullup_resistor != "100K"));
set_config(ti, config.at(iey).at(iex), "IoCtrl.cf_bit_36", pullup && pullup_resistor == "3P3K");
set_config(ti, config.at(iey).at(iex), "IoCtrl.cf_bit_37", pullup && pullup_resistor == "6P8K");
set_config(ti, config.at(iey).at(iex), "IoCtrl.cf_bit_38", pullup && pullup_resistor == "10K");
} else if (iez == 1) {
set_config(ti, config.at(iey).at(iex), "IoCtrl.cf_bit_35",
(!pullup) || (pullup_resistor != "100K"));
set_config(ti, config.at(iey).at(iex), "IoCtrl.cf_bit_32", pullup && pullup_resistor == "3P3K");
set_config(ti, config.at(iey).at(iex), "IoCtrl.cf_bit_33", pullup && pullup_resistor == "6P8K");
set_config(ti, config.at(iey).at(iex), "IoCtrl.cf_bit_34", pullup && pullup_resistor == "10K");
}
}
} else {
NPNR_ASSERT(z == 0);
// Only enable the actual LVDS buffer if input is used for something
set_config(ti, config.at(y).at(x), "IoCtrl.LVDS", input_en);
// Set both IO config
for (int cz = 0; cz < 2; cz++) {
auto ieren = get_ieren(bi, x, y, cz);
int iex, iey, iez;
std::tie(iex, iey, iez) = ieren;
NPNR_ASSERT(iez != -1);
pullup &= !input_en; /* If input is used, force disable pullups */
if (ctx->args.type == ArchArgs::LP1K || ctx->args.type == ArchArgs::HX1K) {
set_config(ti, config.at(iey).at(iex), "IoCtrl.IE_" + std::to_string(iez), true);
set_config(ti, config.at(iey).at(iex), "IoCtrl.REN_" + std::to_string(iez), !pullup);
} else {
set_config(ti, config.at(iey).at(iex), "IoCtrl.IE_" + std::to_string(iez), false);
set_config(ti, config.at(iey).at(iex), "IoCtrl.REN_" + std::to_string(iez), !pullup);
}
if (ctx->args.type == ArchArgs::UP5K || ctx->args.type == ArchArgs::UP3K) {
if (iez == 0) {
set_config(ti, config.at(iey).at(iex), "IoCtrl.cf_bit_39", !pullup);
} else if (iez == 1) {
set_config(ti, config.at(iey).at(iex), "IoCtrl.cf_bit_35", !pullup);
}
}
}
}
} else if (cell.second->type == id_SB_GB) {
if (cell.second->gbInfo.forPadIn) {
Loc gb_loc = ctx->getBelLocation(bel);
for (auto &glb : ci.global_network_info) {
if ((gb_loc.x == glb.gb_x) && (gb_loc.y == glb.gb_y)) {
extra_bits.push_back(std::make_tuple(glb.pi_eb_bank, glb.pi_eb_x, glb.pi_eb_y));
}
}
}
} else if (cell.second->type == id_ICESTORM_RAM) {
const BelInfoPOD &beli = ci.bel_data[bel.index];
int x = beli.x, y = beli.y;
const TileInfoPOD &ti_ramt = bi.tiles_nonrouting[TILE_RAMT];
const TileInfoPOD &ti_ramb = bi.tiles_nonrouting[TILE_RAMB];
if (!(ctx->args.type == ArchArgs::LP1K || ctx->args.type == ArchArgs::HX1K)) {
set_config(ti_ramb, config.at(y).at(x), "RamConfig.PowerUp", true);
}
bool negclk_r = get_param_or_def(ctx, cell.second.get(), id_NEG_CLK_R);
bool negclk_w = get_param_or_def(ctx, cell.second.get(), id_NEG_CLK_W);
int write_mode = get_param_or_def(ctx, cell.second.get(), id_WRITE_MODE);
int read_mode = get_param_or_def(ctx, cell.second.get(), id_READ_MODE);
set_config(ti_ramb, config.at(y).at(x), "NegClk", negclk_w);
set_config(ti_ramt, config.at(y + 1).at(x), "NegClk", negclk_r);
set_config(ti_ramt, config.at(y + 1).at(x), "RamConfig.CBIT_0", write_mode & 0x1);
set_config(ti_ramt, config.at(y + 1).at(x), "RamConfig.CBIT_1", write_mode & 0x2);
set_config(ti_ramt, config.at(y + 1).at(x), "RamConfig.CBIT_2", read_mode & 0x1);
set_config(ti_ramt, config.at(y + 1).at(x), "RamConfig.CBIT_3", read_mode & 0x2);
} else if (cell.second->type == id_SB_LED_DRV_CUR) {
set_ec_cbit(config, ctx, get_ec_config(ctx->chip_info, cell.second->bel), "LED_DRV_CUR_EN", true,
"IpConfig.");
} else if (cell.second->type == id_SB_RGB_DRV) {
const std::vector<std::pair<std::string, int>> rgb_params = {
{"RGB0_CURRENT", 6}, {"RGB1_CURRENT", 6}, {"RGB2_CURRENT", 6}};
configure_extra_cell(config, ctx, cell.second.get(), rgb_params, true, std::string("IpConfig."));
set_ec_cbit(config, ctx, get_ec_config(ctx->chip_info, cell.second->bel), "RGB_DRV_EN", true, "IpConfig.");
} else if (cell.second->type == id_SB_RGBA_DRV) {
const std::vector<std::pair<std::string, int>> rgba_params = {
{"CURRENT_MODE", 1}, {"RGB0_CURRENT", 6}, {"RGB1_CURRENT", 6}, {"RGB2_CURRENT", 6}};
configure_extra_cell(config, ctx, cell.second.get(), rgba_params, true, std::string("IpConfig."));
set_ec_cbit(config, ctx, get_ec_config(ctx->chip_info, cell.second->bel), "RGBA_DRV_EN", true, "IpConfig.");
} else if (cell.second->type.in(id_SB_WARMBOOT, id_ICESTORM_LFOSC, id_SB_LEDDA_IP)) {
// No config needed
} else if (cell.second->type == id_SB_I2C) {
bool sda_in_dly = !cell.second->attrs.count(id_SDA_INPUT_DELAYED) ||
cell.second->attrs[id_SDA_INPUT_DELAYED].as_bool();
bool sda_out_dly = !cell.second->attrs.count(id_SDA_OUTPUT_DELAYED) ||
cell.second->attrs[id_SDA_OUTPUT_DELAYED].as_bool();
set_ec_cbit(config, ctx, get_ec_config(ctx->chip_info, cell.second->bel), "SDA_INPUT_DELAYED", sda_in_dly,
"IpConfig.");
set_ec_cbit(config, ctx, get_ec_config(ctx->chip_info, cell.second->bel), "SDA_OUTPUT_DELAYED", sda_out_dly,
"IpConfig.");
set_ec_cbit(config, ctx, get_ec_config(ctx->chip_info, cell.second->bel), "I2C_ENABLE_0", true,
"IpConfig.");
set_ec_cbit(config, ctx, get_ec_config(ctx->chip_info, cell.second->bel), "I2C_ENABLE_1", true,
"IpConfig.");
} else if (cell.second->type == id_SB_SPI) {
set_ec_cbit(config, ctx, get_ec_config(ctx->chip_info, cell.second->bel), "SPI_ENABLE_0", true,
"IpConfig.");
set_ec_cbit(config, ctx, get_ec_config(ctx->chip_info, cell.second->bel), "SPI_ENABLE_1", true,
"IpConfig.");
set_ec_cbit(config, ctx, get_ec_config(ctx->chip_info, cell.second->bel), "SPI_ENABLE_2", true,
"IpConfig.");
set_ec_cbit(config, ctx, get_ec_config(ctx->chip_info, cell.second->bel), "SPI_ENABLE_3", true,
"IpConfig.");
} else if (cell.second->type == id_ICESTORM_SPRAM) {
const BelInfoPOD &beli = ci.bel_data[bel.index];
int x = beli.x, y = beli.y, z = beli.z;
NPNR_ASSERT(ctx->args.type == ArchArgs::UP5K || ctx->args.type == ArchArgs::UP3K);
if (x == 0 && y == 0) {
const TileInfoPOD &ti_ipcon = bi.tiles_nonrouting[TILE_IPCON];
if (z == 1) {
set_config(ti_ipcon, config.at(1).at(0), "IpConfig.CBIT_0", true);
} else if (z == 2) {
set_config(ti_ipcon, config.at(1).at(0), "IpConfig.CBIT_1", true);
} else {
NPNR_ASSERT(false);
}
} else if (x == 25 && y == 0) {
const TileInfoPOD &ti_ipcon = bi.tiles_nonrouting[TILE_IPCON];
if (z == 3) {
set_config(ti_ipcon, config.at(1).at(25), "IpConfig.CBIT_0", true);
} else if (z == 4) {
set_config(ti_ipcon, config.at(1).at(25), "IpConfig.CBIT_1", true);
} else {
NPNR_ASSERT(false);
}
}
} else if (cell.second->type == id_ICESTORM_DSP) {
const std::vector<std::pair<std::string, int>> mac16_params = {{"C_REG", 1},
{"A_REG", 1},
{"B_REG", 1},
{"D_REG", 1},
{"TOP_8x8_MULT_REG", 1},
{"BOT_8x8_MULT_REG", 1},
{"PIPELINE_16x16_MULT_REG1", 1},
{"PIPELINE_16x16_MULT_REG2", 1},
{"TOPOUTPUT_SELECT", 2},
{"TOPADDSUB_LOWERINPUT", 2},
{"TOPADDSUB_UPPERINPUT", 1},
{"TOPADDSUB_CARRYSELECT", 2},
{"BOTOUTPUT_SELECT", 2},
{"BOTADDSUB_LOWERINPUT", 2},
{"BOTADDSUB_UPPERINPUT", 1},
{"BOTADDSUB_CARRYSELECT", 2},
{"MODE_8x8", 1},
{"A_SIGNED", 1},
{"B_SIGNED", 1}};
configure_extra_cell(config, ctx, cell.second.get(), mac16_params, false, std::string("IpConfig."));
} else if (cell.second->type == id_ICESTORM_HFOSC) {
std::vector<std::pair<std::string, int>> hfosc_params = {{"CLKHF_DIV", 2}};
if (ctx->args.type != ArchArgs::U4K && ctx->args.type != ArchArgs::U1K && ctx->args.type != ArchArgs::U2K)
hfosc_params.push_back(std::pair<std::string, int>("TRIM_EN", 1));
configure_extra_cell(config, ctx, cell.second.get(), hfosc_params, true, std::string("IpConfig."));
} else if (cell.second->type == id_ICESTORM_PLL) {
const std::vector<std::pair<std::string, int>> pll_params = {{"DELAY_ADJMODE_FB", 1},
{"DELAY_ADJMODE_REL", 1},
{"DIVF", 7},
{"DIVQ", 3},
{"DIVR", 4},
{"FDA_FEEDBACK", 4},
{"FDA_RELATIVE", 4},
{"FEEDBACK_PATH", 3},
{"FILTER_RANGE", 3},
{"PLLOUT_SELECT_A", 2},
{"PLLOUT_SELECT_B", 2},
{"PLLTYPE", 3},
{"SHIFTREG_DIV_MODE", 2},
{"TEST_MODE", 1}};
configure_extra_cell(config, ctx, cell.second.get(), pll_params, false, std::string("PLL."));
// Configure the SB_IOs that the clock outputs are going through.
for (auto &io_bel_loc : sb_io_used_by_pll_out) {
// Write config.
const TileInfoPOD &ti = bi.tiles_nonrouting[TILE_IO];
// PINTYPE[1:0] == "01" passes the PLL through to the fabric.
set_config(ti, config.at(io_bel_loc.y).at(io_bel_loc.x),
"IOB_" + std::to_string(io_bel_loc.z) + ".PINTYPE_1", false);
set_config(ti, config.at(io_bel_loc.y).at(io_bel_loc.x),
"IOB_" + std::to_string(io_bel_loc.z) + ".PINTYPE_0", true);
}
} else {
NPNR_ASSERT(false);
}
}
// Set config bits in unused IO and RAM
for (auto bel : ctx->getBels()) {
if (ctx->bel_to_cell[bel.index] == nullptr && ctx->getBelType(bel) == id_SB_IO) {
const TileInfoPOD &ti = bi.tiles_nonrouting[TILE_IO];
const BelInfoPOD &beli = ci.bel_data[bel.index];
int x = beli.x, y = beli.y, z = beli.z;
if (sb_io_used_by_pll_out.count(Loc(x, y, z))) {
continue;
}
auto ieren = get_ieren(bi, x, y, z);
int iex, iey, iez;
std::tie(iex, iey, iez) = ieren;
if (iez != -1) {
// If IO is in LVDS pair, it will be configured by the other pair
if (z == 1) {
BelId lvds0 = ctx->getBelByLocation(Loc{x, y, 0});
const CellInfo *lvds0cell = ctx->getBoundBelCell(lvds0);
if (lvds0cell != nullptr && lvds0cell->ioInfo.lvds)
continue;
}
if (ctx->args.type == ArchArgs::LP1K || ctx->args.type == ArchArgs::HX1K) {
set_config(ti, config.at(iey).at(iex), "IoCtrl.IE_" + std::to_string(iez), true);
set_config(ti, config.at(iey).at(iex), "IoCtrl.REN_" + std::to_string(iez), false);
} else {
set_config(ti, config.at(iey).at(iex), "IoCtrl.IE_" + std::to_string(iez), false);
set_config(ti, config.at(iey).at(iex), "IoCtrl.REN_" + std::to_string(iez), false);
}
}
} else if (ctx->bel_to_cell[bel.index] == nullptr && ctx->getBelType(bel) == id_ICESTORM_RAM) {
const BelInfoPOD &beli = ci.bel_data[bel.index];
int x = beli.x, y = beli.y;
const TileInfoPOD &ti = bi.tiles_nonrouting[TILE_RAMB];
if ((ctx->args.type == ArchArgs::LP1K || ctx->args.type == ArchArgs::HX1K)) {
set_config(ti, config.at(y).at(x), "RamConfig.PowerUp", true);
}
}
}
// Set other config bits
for (int y = 0; y < ci.height; y++) {
for (int x = 0; x < ci.width; x++) {
TileType tile = tile_at(ctx, x, y);
const TileInfoPOD &ti = bi.tiles_nonrouting[tile];
// set all ColBufCtrl bits (FIXME)
bool setColBufCtrl = true;
if (ctx->args.type == ArchArgs::LP1K || ctx->args.type == ArchArgs::HX1K) {
if (tile == TILE_RAMB || tile == TILE_RAMT) {
setColBufCtrl = (y == 3 || y == 5 || y == 11 || y == 13);
} else {
setColBufCtrl = (y == 4 || y == 5 || y == 12 || y == 13);
}
} else if (ctx->args.type == ArchArgs::LP8K || ctx->args.type == ArchArgs::HX8K ||
ctx->args.type == ArchArgs::LP4K || ctx->args.type == ArchArgs::HX4K) {
setColBufCtrl = (y == 8 || y == 9 || y == 24 || y == 25);
} else if (ctx->args.type == ArchArgs::UP5K || ctx->args.type == ArchArgs::UP3K) {
setColBufCtrl = (y == 4 || y == 5 || y == 14 || y == 15 || y == 26 || y == 27);
} else if (ctx->args.type == ArchArgs::U4K || ctx->args.type == ArchArgs::U1K ||
ctx->args.type == ArchArgs::U2K) {
setColBufCtrl = (y == 4 || y == 5 || y == 16 || y == 17);
} else if (ctx->args.type == ArchArgs::LP384) {
setColBufCtrl = false;
}
if (setColBufCtrl) {
set_config(ti, config.at(y).at(x), "ColBufCtrl.glb_netwk_0", true);
set_config(ti, config.at(y).at(x), "ColBufCtrl.glb_netwk_1", true);
set_config(ti, config.at(y).at(x), "ColBufCtrl.glb_netwk_2", true);
set_config(ti, config.at(y).at(x), "ColBufCtrl.glb_netwk_3", true);
set_config(ti, config.at(y).at(x), "ColBufCtrl.glb_netwk_4", true);
set_config(ti, config.at(y).at(x), "ColBufCtrl.glb_netwk_5", true);
set_config(ti, config.at(y).at(x), "ColBufCtrl.glb_netwk_6", true);
set_config(ti, config.at(y).at(x), "ColBufCtrl.glb_netwk_7", true);
}
// Weird UltraPlus bits
if (tile == TILE_DSP0 || tile == TILE_DSP1 || tile == TILE_DSP2 || tile == TILE_DSP3 ||
tile == TILE_IPCON) {
if ((ctx->args.type == ArchArgs::UP5K || ctx->args.type == ArchArgs::UP3K) && x == 25 && y == 14) {
// Mystery bits not set in this one tile
} else {
for (int lc_idx = 0; lc_idx < 8; lc_idx++) {
static const std::vector<int> ip_dsp_lut_perm = {
4, 14, 15, 5, 6, 16, 17, 7, 3, 13, 12, 2, 1, 11, 10, 0,
};
for (int i = 0; i < 16; i++)
set_config(ti, config.at(y).at(x), "LC_" + std::to_string(lc_idx), ((i % 8) >= 4),
ip_dsp_lut_perm.at(i));
if (tile == TILE_IPCON)
set_config(ti, config.at(y).at(x),
"Cascade.IPCON_LC0" + std::to_string(lc_idx) + "_inmux02_5", true);
else
set_config(ti, config.at(y).at(x),
"Cascade.MULT" + std::to_string(int(tile - TILE_DSP0)) + "_LC0" +
std::to_string(lc_idx) + "_inmux02_5",
true);
}
}
}
}
}
// Write config out
for (int y = 0; y < ci.height; y++) {
for (int x = 0; x < ci.width; x++) {
TileType tile = tile_at(ctx, x, y);
if (tile == TILE_NONE)
continue;
out << tagTileType(tile);
out << " " << x << " " << y << std::endl;
for (auto row : config.at(y).at(x)) {
for (auto col : row) {
if (col == 1)
out << "1";
else
out << "0";
}
out << std::endl;
}
out << std::endl;
}
}
// Write RAM init data
for (auto &cell : ctx->cells) {
if (cell.second->bel != BelId()) {
if (cell.second->type == id_ICESTORM_RAM) {
const BelInfoPOD &beli = ci.bel_data[cell.second->bel.index];
int x = beli.x, y = beli.y;
out << ".ram_data " << x << " " << y << std::endl;
for (int w = 0; w < 16; w++) {
std::vector<bool> bits(256);
Property init = get_or_default(cell.second->params, ctx->id(std::string("INIT_") + get_hexdigit(w)),
Property(0, 256));
for (size_t i = 0; i < init.str.size(); i++) {
bool val = (init.str.at(i) == Property::State::S1);
bits.at(i) = val;
}
for (int i = bits.size() - 4; i >= 0; i -= 4) {
int c = bits.at(i) + (bits.at(i + 1) << 1) + (bits.at(i + 2) << 2) + (bits.at(i + 3) << 3);
out << char(std::tolower(get_hexdigit(c)));
}
out << std::endl;
}
out << std::endl;
}
}
}
// Write extra-bits
for (auto eb : extra_bits)
out << ".extra_bit " << std::get<0>(eb) << " " << std::get<1>(eb) << " " << std::get<2>(eb) << std::endl;
// Write symbols
// const bool write_symbols = 1;
for (auto wire : ctx->getWires()) {
NetInfo *net = ctx->getBoundWireNet(wire);
if (net != nullptr)
out << ".sym " << wire.index << " " << net->name.str(ctx) << std::endl;
}
}
void read_config(Context *ctx, std::istream &in, chipconfig_t &config)
{
constexpr size_t line_buf_size = 65536;
char buffer[line_buf_size];
int tile_x = -1, tile_y = -1, line_nr = -1;
while (1) {
in.getline(buffer, line_buf_size);
if (buffer[0] == '.') {
line_nr = -1;
const char *tok = strtok(buffer, " \t\r\n");
if (!strcmp(tok, ".device")) {
std::string config_device = strtok(nullptr, " \t\r\n");
std::string expected;
switch (ctx->args.type) {
case ArchArgs::LP384:
expected = "384";
break;
case ArchArgs::HX1K:
case ArchArgs::LP1K:
expected = "1k";
break;
case ArchArgs::HX4K:
case ArchArgs::LP4K:
case ArchArgs::HX8K:
case ArchArgs::LP8K:
expected = "8k";
break;
case ArchArgs::UP3K:
case ArchArgs::UP5K:
expected = "5k";
break;
case ArchArgs::U1K:
case ArchArgs::U2K:
case ArchArgs::U4K:
expected = "u4k";
break;
default:
log_error("unsupported device type\n");
}
if (expected != config_device)
log_error("device type does not match\n");
} else if (!strcmp(tok, ".io_tile") || !strcmp(tok, ".logic_tile") || !strcmp(tok, ".ramb_tile") ||
!strcmp(tok, ".ramt_tile") || !strcmp(tok, ".ipcon_tile") || !strcmp(tok, ".dsp0_tile") ||
!strcmp(tok, ".dsp1_tile") || !strcmp(tok, ".dsp2_tile") || !strcmp(tok, ".dsp3_tile")) {
line_nr = 0;
tile_x = atoi(strtok(nullptr, " \t\r\n"));
tile_y = atoi(strtok(nullptr, " \t\r\n"));
TileType tile = tile_at(ctx, tile_x, tile_y);
if (tok != tagTileType(tile))
log_error("Wrong tile type for specified position\n");
} else if (!strcmp(tok, ".extra_bit")) {
/*
int b = atoi(strtok(nullptr, " \t\r\n"));
int x = atoi(strtok(nullptr, " \t\r\n"));
int y = atoi(strtok(nullptr, " \t\r\n"));
std::tuple<int, int, int> key(b, x, y);
extra_bits.insert(key);
*/
} else if (!strcmp(tok, ".sym")) {
int wireIndex = atoi(strtok(nullptr, " \t\r\n"));
const char *name = strtok(nullptr, " \t\r\n");
IdString netName = ctx->id(name);
if (ctx->nets.find(netName) == ctx->nets.end()) {
ctx->createNet(netName);
}
WireId wire;
wire.index = wireIndex;
ctx->bindWire(wire, ctx->nets.at(netName).get(), STRENGTH_WEAK);
}
} else if (line_nr >= 0 && strlen(buffer) > 0) {
if (line_nr > int(config.at(tile_y).at(tile_x).size() - 1))
log_error("Invalid data in input asc file");
for (int i = 0; buffer[i] == '0' || buffer[i] == '1'; i++)
config.at(tile_y).at(tile_x).at(line_nr).at(i) = (buffer[i] == '1') ? 1 : 0;
line_nr++;
}
if (in.eof())
break;
}
}
bool read_asc(Context *ctx, std::istream &in)
{
try {
// [y][x][row][col]
const ChipInfoPOD &ci = *ctx->chip_info;
const BitstreamInfoPOD &bi = *ci.bits_info;
chipconfig_t config;
config.resize(ci.height);
for (int y = 0; y < ci.height; y++) {
config.at(y).resize(ci.width);
for (int x = 0; x < ci.width; x++) {
TileType tile = tile_at(ctx, x, y);
int rows = bi.tiles_nonrouting[tile].rows;
int cols = bi.tiles_nonrouting[tile].cols;
config.at(y).at(x).resize(rows, std::vector<int8_t>(cols));
}
}
read_config(ctx, in, config);
// Set pips
for (auto pip : ctx->getPips()) {
const PipInfoPOD &pi = ci.pip_data[pip.index];
const SwitchInfoPOD &swi = bi.switches[pi.switch_index];
bool isUsed = true;
for (int i = 0; i < swi.num_bits; i++) {
bool val = (pi.switch_mask & (1 << ((swi.num_bits - 1) - i))) != 0;
int8_t cbit = config.at(swi.y).at(swi.x).at(swi.cbits[i].row).at(swi.cbits[i].col);
isUsed &= !(bool(cbit) ^ val);
}
if (isUsed) {
NetInfo *net = ctx->wire_to_net[pi.dst];
if (net != nullptr) {
WireId wire;
wire.index = pi.dst;
ctx->unbindWire(wire);
ctx->bindPip(pip, net, STRENGTH_WEAK);
}
}
}
for (auto bel : ctx->getBels()) {
if (ctx->getBelType(bel) == id_ICESTORM_LC) {
const TileInfoPOD &ti = bi.tiles_nonrouting[TILE_LOGIC];
const BelInfoPOD &beli = ci.bel_data[bel.index];
int x = beli.x, y = beli.y, z = beli.z;
std::vector<bool> lc(20, false);
bool isUsed = false;
for (int i = 0; i < 20; i++) {
lc.at(i) = get_config(ti, config.at(y).at(x), "LC_" + std::to_string(z), i);
isUsed |= lc.at(i);
}
bool neg_clk = get_config(ti, config.at(y).at(x), "NegClk");
isUsed |= neg_clk;
bool carry_set = get_config(ti, config.at(y).at(x), "CarryInSet");
isUsed |= carry_set;
if (isUsed) {
std::unique_ptr<CellInfo> created = create_ice_cell(ctx, id_ICESTORM_LC);
IdString name = created->name;
ctx->cells[name] = std::move(created);
ctx->bindBel(bel, ctx->cells[name].get(), STRENGTH_WEAK);
// TODO: Add port mapping to nets and assign values of properties
}
}
if (ctx->getBelType(bel) == id_SB_IO) {
const TileInfoPOD &ti = bi.tiles_nonrouting[TILE_IO];
const BelInfoPOD &beli = ci.bel_data[bel.index];
int x = beli.x, y = beli.y, z = beli.z;
bool isUsed = false;
for (int i = 0; i < 6; i++) {
isUsed |= get_config(ti, config.at(y).at(x),
"IOB_" + std::to_string(z) + ".PINTYPE_" + std::to_string(i));
}
bool neg_trigger = get_config(ti, config.at(y).at(x), "NegClk");
isUsed |= neg_trigger;
if (isUsed) {
std::unique_ptr<CellInfo> created = create_ice_cell(ctx, id_SB_IO);
IdString name = created->name;
ctx->cells[name] = std::move(created);
ctx->bindBel(bel, ctx->cells[name].get(), STRENGTH_WEAK);
// TODO: Add port mapping to nets and assign values of properties
}
}
}
// Add cells that are without change in initial state of configuration
for (auto &net : ctx->nets) {
for (auto w : net.second->wires) {
if (w.second.pip == PipId()) {
WireId wire = w.first;
for (auto belpin : ctx->getWireBelPins(wire)) {
if (ctx->checkBelAvail(belpin.bel)) {
if (ctx->getBelType(belpin.bel) == id_ICESTORM_LC) {
std::unique_ptr<CellInfo> created = create_ice_cell(ctx, id_ICESTORM_LC);
IdString name = created->name;
ctx->cells[name] = std::move(created);
ctx->bindBel(belpin.bel, ctx->cells[name].get(), STRENGTH_WEAK);
// TODO: Add port mapping to nets
}
if (ctx->getBelType(belpin.bel) == id_SB_IO) {
std::unique_ptr<CellInfo> created = create_ice_cell(ctx, id_SB_IO);
IdString name = created->name;
ctx->cells[name] = std::move(created);
ctx->bindBel(belpin.bel, ctx->cells[name].get(), STRENGTH_WEAK);
// TODO: Add port mapping to nets
}
if (ctx->getBelType(belpin.bel) == id_SB_GB) {
std::unique_ptr<CellInfo> created = create_ice_cell(ctx, id_SB_GB);
IdString name = created->name;
ctx->cells[name] = std::move(created);
ctx->bindBel(belpin.bel, ctx->cells[name].get(), STRENGTH_WEAK);
// TODO: Add port mapping to nets
}
if (ctx->getBelType(belpin.bel) == id_SB_WARMBOOT) {
std::unique_ptr<CellInfo> created = create_ice_cell(ctx, id_SB_WARMBOOT);
IdString name = created->name;
ctx->cells[name] = std::move(created);
ctx->bindBel(belpin.bel, ctx->cells[name].get(), STRENGTH_WEAK);
// TODO: Add port mapping to nets
}
if (ctx->getBelType(belpin.bel) == id_ICESTORM_LFOSC) {
std::unique_ptr<CellInfo> created = create_ice_cell(ctx, id_ICESTORM_LFOSC);
IdString name = created->name;
ctx->cells[name] = std::move(created);
ctx->bindBel(belpin.bel, ctx->cells[name].get(), STRENGTH_WEAK);
// TODO: Add port mapping to nets
}
}
}
}
}
}
for (auto &cell : ctx->cells) {
if (cell.second->bel != BelId()) {
for (auto &port : cell.second->ports) {
IdString pin = port.first;
WireId wire = ctx->getBelPinWire(cell.second->bel, pin);
if (wire != WireId()) {
NetInfo *net = ctx->getBoundWireNet(wire);
if (net != nullptr) {
port.second.net = net;
PortRef ref;
ref.cell = cell.second.get();
ref.port = port.second.name;
if (port.second.type == PORT_OUT)
net->driver = ref;
else
port.second.user_idx = net->users.add(ref);
}
}
}
}
}
return true;
} catch (log_execution_error_exception) {
return false;
}
}
NEXTPNR_NAMESPACE_END
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