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/*
* nextpnr -- Next Generation Place and Route
*
* Copyright (C) 2021 Symbiflow Authors
*
*
* 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 "site_arch.h"
#include "site_arch.impl.h"
NEXTPNR_NAMESPACE_BEGIN
SiteInformation::SiteInformation(const Context *ctx, int32_t tile, int32_t site,
const pool<CellInfo *, hash_ptr_ops> &cells_in_site)
: ctx(ctx), tile(tile), tile_type(ctx->chip_info->tiles[tile].type), site(site), cells_in_site(cells_in_site)
{
}
bool SiteArch::bindPip(const SitePip &pip, SiteNetInfo *net)
{
SiteWire src = getPipSrcWire(pip);
SiteWire dst = getPipDstWire(pip);
if (!bindWire(src, net)) {
return false;
}
if (!bindWire(dst, net)) {
unbindWire(src);
return false;
}
auto result = net->wires.emplace(dst, SitePipMap{pip, 1});
if (!result.second) {
if (result.first->second.pip != pip) {
// Pip conflict!
if (debug()) {
log_info("Pip conflict binding pip %s to wire %s, conflicts with pip %s\n", nameOfPip(pip),
nameOfWire(dst), nameOfPip(result.first->second.pip));
}
unbindWire(src);
unbindWire(dst);
return false;
}
result.first->second.count += 1;
}
if (debug()) {
log_info("Bound pip %s to wire %s\n", nameOfPip(pip), nameOfWire(dst));
}
return true;
}
void SiteArch::unbindPip(const SitePip &pip)
{
SiteWire src = getPipSrcWire(pip);
SiteWire dst = getPipDstWire(pip);
if (debug()) {
log_info("Unbinding pip %s from wire %s\n", nameOfPip(pip), nameOfWire(dst));
}
SiteNetInfo *src_net = unbindWire(src);
SiteNetInfo *dst_net = unbindWire(dst);
NPNR_ASSERT(src_net == dst_net);
auto iter = dst_net->wires.find(dst);
NPNR_ASSERT(iter != dst_net->wires.end());
NPNR_ASSERT(iter->second.count >= 1);
iter->second.count -= 1;
if (iter->second.count == 0) {
dst_net->wires.erase(iter);
}
}
void SiteArch::archcheck()
{
for (SiteWire wire : getWires()) {
for (SitePip pip : getPipsDownhill(wire)) {
SiteWire wire2 = getPipSrcWire(pip);
log_assert(wire == wire2);
}
for (SitePip pip : getPipsUphill(wire)) {
SiteWire wire2 = getPipDstWire(pip);
log_assert(wire == wire2);
}
}
}
SiteArch::SiteArch(const SiteInformation *site_info) : ctx(site_info->ctx), site_info(site_info)
{
// Build list of input and output site ports
//
// FIXME: This doesn't need to be computed over and over, move to
// arch/chip db.
const TileTypeInfoPOD &tile_type = loc_info(&site_info->chip_info(), *site_info);
PipId pip;
pip.tile = site_info->tile;
for (size_t pip_index = 0; pip_index < tile_type.pip_data.size(); ++pip_index) {
if (tile_type.pip_data[pip_index].site != site_info->site) {
continue;
}
pip.index = pip_index;
if (!site_info->is_site_port(pip)) {
continue;
}
WireId src_wire = ctx->getPipSrcWire(pip);
if (site_info->is_wire_in_site(src_wire)) {
output_site_ports.push_back(pip);
} else {
input_site_ports.push_back(pip);
}
}
// Create list of out of site sources and sinks.
bool have_vcc_pins = false;
for (CellInfo *cell : site_info->cells_in_site) {
for (const auto &pin_pair : cell->cell_bel_pins) {
if (!cell->ports.count(pin_pair.first))
continue;
const PortInfo &port = cell->ports.at(pin_pair.first);
if (port.net != nullptr) {
nets.emplace(port.net, SiteNetInfo{port.net});
}
}
if (!cell->lut_cell.vcc_pins.empty()) {
have_vcc_pins = true;
}
}
for (auto &net_pair : nets) {
NetInfo *net = net_pair.first;
SiteNetInfo &net_info = net_pair.second;
// All nets require drivers
NPNR_ASSERT(net->driver.cell != nullptr);
bool net_driven_out_of_site = false;
if (net->driver.cell->bel == BelId()) {
// The driver of this site hasn't been placed, so treat it as
// out of site.
out_of_site_sources.push_back(SiteWire::make(site_info, PORT_OUT, net));
net_info.driver = out_of_site_sources.back();
net_driven_out_of_site = true;
} else {
if (!site_info->is_bel_in_site(net->driver.cell->bel)) {
// The driver of this site has been placed, it is an out
// of site source.
out_of_site_sources.push_back(SiteWire::make(site_info, PORT_OUT, net));
// out_of_site_sources.back().wire = ctx->getNetinfoSourceWire(net);
net_info.driver = out_of_site_sources.back();
net_driven_out_of_site = true;
} else {
net_info.driver = SiteWire::make(site_info, ctx->getNetinfoSourceWire(net));
}
}
if (net_driven_out_of_site) {
// Because this net is driven from a source out of the site,
// no out of site sink is required.
continue;
}
// Examine net to determine if it has any users not in this site.
bool net_used_out_of_site = false;
for (const PortRef &user : net->users) {
NPNR_ASSERT(user.cell != nullptr);
if (user.cell->bel == BelId()) {
// Because this net has a user that has not been placed,
// and this net is being driven from this site, make sure
// this net can be routed from this site.
net_used_out_of_site = true;
break;
}
if (!site_info->is_bel_in_site(user.cell->bel)) {
net_used_out_of_site = true;
break;
}
}
if (net_used_out_of_site) {
out_of_site_sinks.push_back(SiteWire::make(site_info, PORT_IN, net));
net_info.users.emplace(out_of_site_sinks.back());
}
}
// At this point all nets have a driver SiteWire, but user SiteWire's
// within the site are not present. Add them now.
for (auto &net_pair : nets) {
NetInfo *net = net_pair.first;
SiteNetInfo &net_info = net_pair.second;
for (const PortRef &user : net->users) {
if (!site_info->is_bel_in_site(user.cell->bel)) {
// Only care about BELs within the site at this point.
continue;
}
for (IdString bel_pin : ctx->getBelPinsForCellPin(user.cell, user.port)) {
SiteWire wire = getBelPinWire(user.cell->bel, bel_pin);
// Don't add users that are trivially routable!
if (wire != net_info.driver) {
#ifdef DEBUG_SITE_ARCH
if (ctx->debug) {
log_info("Add user %s because it isn't driver %s\n", nameOfWire(wire),
nameOfWire(net_info.driver));
}
#endif
net_info.users.emplace(wire);
}
}
}
}
IdString vcc_net_name(ctx->chip_info->constants->vcc_net_name);
NetInfo *vcc_net = ctx->nets.at(vcc_net_name).get();
auto iter = nets.find(vcc_net);
if (iter == nets.end() && have_vcc_pins) {
// VCC net isn't present, add it.
SiteNetInfo net_info;
net_info.net = vcc_net;
net_info.driver.type = SiteWire::OUT_OF_SITE_SOURCE;
net_info.driver.net = vcc_net;
auto result = nets.emplace(vcc_net, net_info);
NPNR_ASSERT(result.second);
iter = result.first;
}
for (CellInfo *cell : site_info->cells_in_site) {
for (IdString vcc_pin : cell->lut_cell.vcc_pins) {
SiteWire wire = getBelPinWire(cell->bel, vcc_pin);
iter->second.users.emplace(wire);
}
}
for (auto &net_pair : nets) {
SiteNetInfo *net_info = &net_pair.second;
auto result = wire_to_nets.emplace(net_info->driver, SiteNetMap{net_info, 1});
// By this point, trivial congestion at sources should already by
// avoided, and there should be no duplicates in the
// driver/users data.
NPNR_ASSERT(result.second);
for (const auto &user : net_info->users) {
result = wire_to_nets.emplace(user, SiteNetMap{net_info, 1});
NPNR_ASSERT(result.second);
}
}
blocking_net.name = ctx->id("$nextpnr_blocked_net");
blocking_site_net.net = &blocking_net;
}
const char *SiteArch::nameOfWire(const SiteWire &wire) const
{
switch (wire.type) {
case SiteWire::SITE_WIRE:
return ctx->nameOfWire(wire.wire);
case SiteWire::SITE_PORT_SINK:
return ctx->nameOfWire(wire.wire);
case SiteWire::SITE_PORT_SOURCE:
return ctx->nameOfWire(wire.wire);
case SiteWire::OUT_OF_SITE_SOURCE: {
std::string &str = ctx->log_strs.next();
str = stringf("Out of site source for net %s", wire.net->name.c_str(ctx));
return str.c_str();
}
case SiteWire::OUT_OF_SITE_SINK: {
std::string &str = ctx->log_strs.next();
str = stringf("Out of sink source for net %s", wire.net->name.c_str(ctx));
return str.c_str();
}
default:
// Unreachable!
NPNR_ASSERT(false);
}
}
const char *SiteArch::nameOfPip(const SitePip &pip) const
{
switch (pip.type) {
case SitePip::SITE_PIP:
return ctx->nameOfPip(pip.pip);
case SitePip::SITE_PORT:
return ctx->nameOfPip(pip.pip);
case SitePip::SOURCE_TO_SITE_PORT: {
std::string &str = ctx->log_strs.next();
str = stringf("Out of site source for net %s => %s", pip.wire.net->name.c_str(ctx),
ctx->nameOfWire(ctx->getPipSrcWire(pip.pip)));
return str.c_str();
}
case SitePip::SITE_PORT_TO_SINK: {
std::string &str = ctx->log_strs.next();
str = stringf("%s => Out of site sink for net %s", ctx->nameOfWire(ctx->getPipDstWire(pip.pip)),
pip.wire.net->name.c_str(ctx));
return str.c_str();
}
case SitePip::SITE_PORT_TO_SITE_PORT: {
std::string &str = ctx->log_strs.next();
str = stringf("%s => %s", ctx->nameOfWire(ctx->getPipSrcWire(pip.pip)),
ctx->nameOfWire(ctx->getPipDstWire(pip.other_pip)));
return str.c_str();
}
default:
// Unreachable!
NPNR_ASSERT(false);
}
}
const char *SiteArch::nameOfNet(const SiteNetInfo *net) const { return net->net->name.c_str(ctx); }
bool SiteArch::debug() const { return ctx->debug; }
SitePipUphillRange::SitePipUphillRange(const SiteArch *site_arch, SiteWire site_wire)
: site_arch(site_arch), site_wire(site_wire)
{
switch (site_wire.type) {
case SiteWire::SITE_WIRE:
pip_range = site_arch->ctx->getPipsUphill(site_wire.wire);
break;
case SiteWire::OUT_OF_SITE_SOURCE:
// No normal pips!
break;
case SiteWire::OUT_OF_SITE_SINK:
// No normal pips!
break;
case SiteWire::SITE_PORT_SINK:
// No normal pips!
break;
case SiteWire::SITE_PORT_SOURCE:
// No normal pips!
break;
default:
// Unreachable!
NPNR_ASSERT(false);
}
}
SitePip SitePipUphillIterator::operator*() const
{
switch (state) {
case NORMAL_PIPS:
return SitePip::make(site_arch->site_info, *iter);
case PORT_SRC_TO_PORT_SINK:
return SitePip::make(site_arch->site_info, site_arch->output_site_ports.at(cursor), site_wire.pip);
case OUT_OF_SITE_SOURCES:
return SitePip::make(site_arch->site_info, site_arch->out_of_site_sources.at(cursor), site_wire.pip);
case OUT_OF_SITE_SINK_TO_PORT_SINK:
return SitePip::make(site_arch->site_info, site_arch->output_site_ports.at(cursor), site_wire);
case SITE_PORT:
return SitePip::make(site_arch->site_info, site_wire.pip);
default:
// Unreachable!
NPNR_ASSERT(false);
}
}
SiteWire SiteWireIterator::operator*() const
{
WireId wire;
PipId pip;
SiteWire site_wire;
switch (state) {
case NORMAL_WIRES:
wire.tile = site_arch->site_info->tile;
wire.index = cursor;
return SiteWire::make(site_arch->site_info, wire);
case INPUT_SITE_PORTS:
pip = site_arch->input_site_ports.at(cursor);
site_wire = SiteWire::make_site_port(site_arch->site_info, pip, /*dst_wire=*/false);
NPNR_ASSERT(site_wire.type == SiteWire::SITE_PORT_SOURCE);
return site_wire;
case OUTPUT_SITE_PORTS:
pip = site_arch->output_site_ports.at(cursor);
site_wire = SiteWire::make_site_port(site_arch->site_info, pip, /*dst_wire=*/true);
NPNR_ASSERT(site_wire.type == SiteWire::SITE_PORT_SINK);
return site_wire;
case OUT_OF_SITE_SOURCES:
return site_arch->out_of_site_sources.at(cursor);
case OUT_OF_SITE_SINKS:
return site_arch->out_of_site_sinks.at(cursor);
default:
// Unreachable!
NPNR_ASSERT(false);
}
}
SiteWireIterator SiteWireRange::begin() const
{
SiteWireIterator b;
b.state = SiteWireIterator::BEGIN;
b.site_arch = site_arch;
b.tile_type = &loc_info(&site_arch->site_info->chip_info(), *site_arch->site_info);
++b;
return b;
}
NEXTPNR_NAMESPACE_END
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