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|
/*
* nextpnr -- Next Generation Place and Route
*
* Copyright (C) 2018 Claire Xenia Wolf <claire@yosyshq.com>
* Copyright (C) 2020 Pepijn de Vos <pepijn@symbioticeda.com>
*
* 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 <boost/algorithm/string.hpp>
#include <iostream>
#include <math.h>
#include <regex>
#include "embed.h"
#include "gfx.h"
#include "nextpnr.h"
#include "placer1.h"
#include "placer_heap.h"
#include "router1.h"
#include "router2.h"
#include "util.h"
NEXTPNR_NAMESPACE_BEGIN
// GUI
void Arch::fixClockSpineDecals(void)
{
for (auto sp : clockSpinesCache) {
// row: (#of spine cells, wire_id)
dict<int, std::pair<int, IdString>> rows;
IdString min_x, max_x;
min_x = max_x = *sp.second.begin();
for (auto wire : sp.second) {
WireInfo &wi = wire_info(wire);
std::pair<int, IdString> &row = rows[wi.y];
++row.first;
row.second = wire;
if (wi.x < wire_info(min_x).x) {
min_x = wire;
} else {
if (wi.x > wire_info(max_x).x) {
max_x = wire;
}
}
}
// central mux row owns the global decal
int mux_row = -1;
for (auto row : rows) {
if (row.second.first == 1) {
mux_row = row.first;
break;
}
}
// if there is no separate central mux than all decals are the same
if (mux_row == -1) {
mux_row = rows.begin()->first;
WireInfo &wi = wire_info(rows.at(mux_row).second);
GraphicElement &el_active = decal_graphics.at(wi.decalxy_active.decal).at(0);
GraphicElement &el_inactive = decal_graphics.at(wi.decalxy_inactive.decal).at(0);
el_active.y1 -= wi.y;
el_active.y2 -= wi.y;
el_inactive.y1 -= wi.y;
el_inactive.y2 -= wi.y;
el_active.x1 += wire_info(min_x).x;
el_active.x2 += wire_info(max_x).x;
el_inactive.x1 += wire_info(min_x).x;
el_inactive.x2 += wire_info(max_x).x;
} else {
// change the global decal
WireInfo &wi = wire_info(rows.at(mux_row).second);
// clear spine decals
float y = 0.;
for (auto wire : sp.second) {
if (wire == wi.name) {
continue;
}
wire_info(wire).decalxy_active = DecalXY();
wire_info(wire).decalxy_inactive = DecalXY();
y = wire_info(wire).y;
}
GraphicElement &el_active = decal_graphics.at(wi.decalxy_active.decal).at(0);
GraphicElement &el_inactive = decal_graphics.at(wi.decalxy_inactive.decal).at(0);
el_active.y1 -= y;
el_active.y2 -= y;
el_inactive.y1 -= y;
el_inactive.y2 -= y;
el_active.x1 += wire_info(min_x).x;
el_active.x2 += wire_info(max_x).x;
el_inactive.x1 += wire_info(min_x).x;
el_inactive.x2 += wire_info(max_x).x;
}
refreshUi();
}
}
void Arch::updateClockSpinesCache(IdString spine_id, IdString wire_id)
{
std::vector<IdString> &sp = clockSpinesCache[spine_id];
if (std::find(sp.begin(), sp.end(), wire_id) == sp.end()) {
sp.push_back(wire_id);
}
}
DecalXY Arch::getBelDecal(BelId bel) const
{
CellInfo *ci = getBoundBelCell(bel);
if (ci == nullptr) {
return bels.at(bel).decalxy_inactive;
} else {
// LUT + used/unused DFF
if (bels.at(bel).type == id_SLICE) {
DecalXY decalxy = bels.at(bel).decalxy_active;
if (!ci->params.at(id_FF_USED).as_bool()) {
decalxy.decal = id_DECAL_LUT_UNUSED_DFF_ACTIVE;
if (ci->params.count(id_ALU_MODE) != 0) {
decalxy.decal = id_DECAL_ALU_ACTIVE;
}
}
return decalxy;
}
}
return bels.at(bel).decalxy_active;
}
DecalXY Arch::getGroupDecal(GroupId grp) const { return groups.at(grp).decalxy; }
DecalXY Arch::getPipDecal(PipId pip) const
{
if (getBoundPipNet(pip) == nullptr) {
return pips.at(pip).decalxy_inactive;
}
return pips.at(pip).decalxy_active;
}
DecalXY Arch::getWireDecal(WireId wire) const
{
static std::vector<IdString> clk_wires = {id_GB00, id_GB10, id_GB20, id_GB30, id_GB40, id_GB50, id_GB60, id_GB70};
static std::vector<IdString> pip_dst = {id_CLK0, id_CLK1, id_CLK2, id_EW10, id_EW20, id_SN10, id_SN20};
if (getBoundWireNet(wire) == nullptr) {
if (std::find(clk_wires.begin(), clk_wires.end(), wires.at(wire).type) != clk_wires.end()) {
for (auto dst : pip_dst) {
// check if pip is used
char pip_name[20];
snprintf(pip_name, sizeof(pip_name), "%s_%s", wire.c_str(this), dst.c_str(this));
if (pips.count(id(pip_name)) != 0) {
if (getBoundPipNet(id(pip_name)) != nullptr) {
return wires.at(wire).decalxy_active;
}
}
}
} else {
// spines
if (clockSpinesCache.count(wires.at(wire).type) != 0) {
std::vector<IdString> const &sp = clockSpinesCache.at(wires.at(wire).type);
for (auto w : sp) {
if (getBoundWireNet(w) != nullptr) {
return wires.at(wire).decalxy_active;
}
}
}
}
return wires.at(wire).decalxy_inactive;
}
return wires.at(wire).decalxy_active;
}
WireInfo &Arch::wire_info(IdString wire)
{
auto w = wires.find(wire);
if (w == wires.end())
NPNR_ASSERT_FALSE_STR("no wire named " + wire.str(this));
return w->second;
}
PipInfo &Arch::pip_info(IdString pip)
{
auto p = pips.find(pip);
if (p == pips.end())
NPNR_ASSERT_FALSE_STR("no pip named " + pip.str(this));
return p->second;
}
BelInfo &Arch::bel_info(IdString bel)
{
auto b = bels.find(bel);
if (b == bels.end())
NPNR_ASSERT_FALSE_STR("no bel named " + bel.str(this));
return b->second;
}
void Arch::addWire(IdString name, IdString type, int x, int y)
{
NPNR_ASSERT(wires.count(name) == 0);
WireInfo &wi = wires[name];
wi.name = name;
wi.type = type;
wi.x = x;
wi.y = y;
wire_ids.push_back(name);
}
void Arch::addPip(IdString name, IdString type, IdString srcWire, IdString dstWire, DelayQuad delay, Loc loc)
{
NPNR_ASSERT(pips.count(name) == 0);
PipInfo &pi = pips[name];
pi.name = name;
pi.type = type;
pi.srcWire = srcWire;
pi.dstWire = dstWire;
pi.delay = delay;
pi.loc = loc;
wire_info(srcWire).downhill.push_back(name);
wire_info(dstWire).uphill.push_back(name);
pip_ids.push_back(name);
if (int(tilePipDimZ.size()) <= loc.x)
tilePipDimZ.resize(loc.x + 1);
if (int(tilePipDimZ[loc.x].size()) <= loc.y)
tilePipDimZ[loc.x].resize(loc.y + 1);
// Needed to ensure empty tile bel locations
if (int(bels_by_tile.size()) <= loc.x)
bels_by_tile.resize(loc.x + 1);
if (int(bels_by_tile[loc.x].size()) <= loc.y)
bels_by_tile[loc.x].resize(loc.y + 1);
if (int(tileBelDimZ.size()) <= loc.x)
tileBelDimZ.resize(loc.x + 1);
if (int(tileBelDimZ[loc.x].size()) <= loc.y)
tileBelDimZ[loc.x].resize(loc.y + 1);
gridDimX = std::max(gridDimX, loc.x + 1);
gridDimY = std::max(gridDimY, loc.y + 1);
tilePipDimZ[loc.x][loc.y] = std::max(tilePipDimZ[loc.x][loc.y], loc.z + 1);
}
void Arch::addGroup(IdString name)
{
NPNR_ASSERT(groups.count(name) == 0);
GroupInfo &gi = groups[name];
gi.name = name;
}
void Arch::addBel(IdString name, IdString type, Loc loc, bool gb)
{
NPNR_ASSERT(bels.count(name) == 0);
NPNR_ASSERT(bel_by_loc.count(loc) == 0);
BelInfo &bi = bels[name];
bi.name = name;
bi.type = type;
bi.x = loc.x;
bi.y = loc.y;
bi.z = loc.z;
bi.gb = gb;
bel_ids.push_back(name);
bel_by_loc[loc] = name;
if (int(bels_by_tile.size()) <= loc.x)
bels_by_tile.resize(loc.x + 1);
if (int(bels_by_tile[loc.x].size()) <= loc.y)
bels_by_tile[loc.x].resize(loc.y + 1);
bels_by_tile[loc.x][loc.y].push_back(name);
if (int(tileBelDimZ.size()) <= loc.x)
tileBelDimZ.resize(loc.x + 1);
if (int(tileBelDimZ[loc.x].size()) <= loc.y)
tileBelDimZ[loc.x].resize(loc.y + 1);
gridDimX = std::max(gridDimX, loc.x + 1);
gridDimY = std::max(gridDimY, loc.y + 1);
tileBelDimZ[loc.x][loc.y] = std::max(tileBelDimZ[loc.x][loc.y], loc.z + 1);
}
void Arch::addBelInput(IdString bel, IdString name, IdString wire)
{
NPNR_ASSERT(bel_info(bel).pins.count(name) == 0);
PinInfo &pi = bel_info(bel).pins[name];
pi.name = name;
pi.wire = wire;
pi.type = PORT_IN;
wire_info(wire).downhill_bel_pins.push_back(BelPin{bel, name});
wire_info(wire).bel_pins.push_back(BelPin{bel, name});
}
void Arch::addBelOutput(IdString bel, IdString name, IdString wire)
{
NPNR_ASSERT(bel_info(bel).pins.count(name) == 0);
PinInfo &pi = bel_info(bel).pins[name];
pi.name = name;
pi.wire = wire;
pi.type = PORT_OUT;
wire_info(wire).uphill_bel_pin = BelPin{bel, name};
wire_info(wire).bel_pins.push_back(BelPin{bel, name});
}
void Arch::addBelInout(IdString bel, IdString name, IdString wire)
{
NPNR_ASSERT(bel_info(bel).pins.count(name) == 0);
PinInfo &pi = bel_info(bel).pins[name];
pi.name = name;
pi.wire = wire;
pi.type = PORT_INOUT;
wire_info(wire).downhill_bel_pins.push_back(BelPin{bel, name});
wire_info(wire).bel_pins.push_back(BelPin{bel, name});
}
void Arch::addGroupBel(IdString group, IdString bel) { groups[group].bels.push_back(bel); }
void Arch::addGroupWire(IdString group, IdString wire) { groups[group].wires.push_back(wire); }
void Arch::addGroupPip(IdString group, IdString pip) { groups[group].pips.push_back(pip); }
void Arch::addGroupGroup(IdString group, IdString grp) { groups[group].groups.push_back(grp); }
void Arch::addDecalGraphic(DecalId decal, const GraphicElement &graphic)
{
decal_graphics[decal].push_back(graphic);
refreshUi();
}
void Arch::setWireDecal(WireId wire, DecalXY active, DecalXY inactive)
{
wire_info(wire).decalxy_active = active;
wire_info(wire).decalxy_inactive = inactive;
refreshUiWire(wire);
}
void Arch::setPipDecal(PipId pip, DecalXY active, DecalXY inactive)
{
pip_info(pip).decalxy_active = active;
pip_info(pip).decalxy_inactive = inactive;
refreshUiPip(pip);
}
void Arch::setBelDecal(BelId bel, DecalXY active, DecalXY inactive)
{
bel_info(bel).decalxy_active = active;
bel_info(bel).decalxy_inactive = inactive;
refreshUiBel(bel);
}
void Arch::setDefaultDecals(void)
{
for (BelId bel : getBels()) {
gfxSetBelDefaultDecal(this, bel_info(bel));
}
for (PipId pip : getPips()) {
gfxSetPipDefaultDecal(this, pip_info(pip));
}
for (WireId wire : getWires()) {
gfxSetWireDefaultDecal(this, wire_info(wire));
}
fixClockSpineDecals();
}
void Arch::setGroupDecal(GroupId group, DecalXY decalxy)
{
groups[group].decalxy = decalxy;
refreshUiGroup(group);
}
void Arch::setWireAttr(IdString wire, IdString key, const std::string &value) { wire_info(wire).attrs[key] = value; }
void Arch::setPipAttr(IdString pip, IdString key, const std::string &value) { pip_info(pip).attrs[key] = value; }
void Arch::setBelAttr(IdString bel, IdString key, const std::string &value) { bel_info(bel).attrs[key] = value; }
void Arch::setDelayScaling(double scale, double offset)
{
args.delayScale = scale;
args.delayOffset = offset;
}
void Arch::addCellTimingClock(IdString cell, IdString port) { cellTiming[cell].portClasses[port] = TMG_CLOCK_INPUT; }
void Arch::addCellTimingDelay(IdString cell, IdString fromPort, IdString toPort, DelayQuad delay)
{
if (get_or_default(cellTiming[cell].portClasses, fromPort, TMG_IGNORE) == TMG_IGNORE)
cellTiming[cell].portClasses[fromPort] = TMG_COMB_INPUT;
if (get_or_default(cellTiming[cell].portClasses, toPort, TMG_IGNORE) == TMG_IGNORE)
cellTiming[cell].portClasses[toPort] = TMG_COMB_OUTPUT;
cellTiming[cell].combDelays[CellDelayKey{fromPort, toPort}] = delay;
}
void Arch::addCellTimingSetupHold(IdString cell, IdString port, IdString clock, DelayPair setup, DelayPair hold)
{
TimingClockingInfo ci;
ci.clock_port = clock;
ci.edge = RISING_EDGE;
ci.setup = setup;
ci.hold = hold;
cellTiming[cell].clockingInfo[port].push_back(ci);
cellTiming[cell].portClasses[port] = TMG_REGISTER_INPUT;
}
void Arch::addCellTimingClockToOut(IdString cell, IdString port, IdString clock, DelayQuad clktoq)
{
TimingClockingInfo ci;
ci.clock_port = clock;
ci.edge = RISING_EDGE;
ci.clockToQ = clktoq;
cellTiming[cell].clockingInfo[port].push_back(ci);
cellTiming[cell].portClasses[port] = TMG_REGISTER_OUTPUT;
}
// ---------------------------------------------------------------
// TODO represent wires more intelligently.
IdString Arch::wireToGlobal(int &row, int &col, const DatabasePOD *db, IdString &wire)
{
const std::string &wirename = wire.str(this);
char buf[32];
if (wirename == "VCC" || wirename == "GND") {
return wire;
}
if (!isdigit(wirename[1]) || !isdigit(wirename[2]) || !isdigit(wirename[3])) {
snprintf(buf, 32, "R%dC%d_%s", row + 1, col + 1, wirename.c_str());
return id(buf);
}
char direction = wirename[0];
int num = std::stoi(wirename.substr(1, 2));
int segment = std::stoi(wirename.substr(3, 1));
switch (direction) {
case 'N':
row += segment;
break;
case 'S':
row -= segment;
break;
case 'E':
col -= segment;
break;
case 'W':
col += segment;
break;
default:
snprintf(buf, 32, "R%dC%d_%s", row + 1, col + 1, wirename.c_str());
return id(buf);
break;
}
// wires wrap around the edges
// assumes 0-based indexes
if (row < 0) {
row = -1 - row;
direction = 'N';
} else if (col < 0) {
col = -1 - col;
direction = 'W';
} else if (row >= db->rows) {
row = 2 * db->rows - 1 - row;
direction = 'S';
} else if (col >= db->cols) {
col = 2 * db->cols - 1 - col;
direction = 'E';
}
snprintf(buf, 32, "%c%d0", direction, num);
wire = id(buf);
snprintf(buf, 32, "R%dC%d_%c%d", row + 1, col + 1, direction, num);
return id(buf);
}
const PairPOD *pairLookup(const PairPOD *list, const size_t len, const int dest)
{
for (size_t i = 0; i < len; i++) {
const PairPOD *pair = &list[i];
if (pair->dest_id == dest) {
return pair;
}
}
return nullptr;
}
bool aliasCompare(GlobalAliasPOD i, GlobalAliasPOD j)
{
return (i.dest_row < j.dest_row) || (i.dest_row == j.dest_row && i.dest_col < j.dest_col) ||
(i.dest_row == j.dest_row && i.dest_col == j.dest_col && i.dest_id < j.dest_id);
}
bool timingCompare(TimingPOD i, TimingPOD j) { return i.name_id < j.name_id; }
template <class T, class C> const T *genericLookup(const T *first, int len, const T val, C compare)
{
auto res = std::lower_bound(first, first + len, val, compare);
if (res - first != len && !compare(val, *res)) {
return res;
} else {
return nullptr;
}
}
DelayQuad delayLookup(const TimingPOD *first, int len, IdString name)
{
TimingPOD needle;
needle.name_id = name.index;
const TimingPOD *timing = genericLookup(first, len, needle, timingCompare);
DelayQuad delay;
if (timing != nullptr) {
delay.fall.max_delay = std::max(timing->ff, timing->rf) / 1000;
delay.fall.min_delay = std::min(timing->ff, timing->rf) / 1000;
delay.rise.max_delay = std::max(timing->rr, timing->fr) / 1000;
delay.rise.min_delay = std::min(timing->rr, timing->fr) / 1000;
} else {
delay = DelayQuad(0);
}
return delay;
}
DelayQuad Arch::getWireTypeDelay(IdString wire)
{
IdString len;
IdString glbsrc;
switch (wire.index) {
case ID_X01:
case ID_X02:
case ID_X03:
case ID_X04:
case ID_X05:
case ID_X06:
case ID_X07:
case ID_X08:
case ID_I0:
case ID_I1:
len = id_X0;
break;
case ID_N100:
case ID_N130:
case ID_S100:
case ID_S130:
case ID_E100:
case ID_E130:
case ID_W100:
case ID_W130:
case ID_E110:
case ID_W110:
case ID_E120:
case ID_W120:
case ID_S110:
case ID_N110:
case ID_S120:
case ID_N120:
case ID_SN10:
case ID_SN20:
case ID_EW10:
case ID_EW20:
case ID_I01:
len = id_FX1;
break;
case ID_N200:
case ID_N210:
case ID_N220:
case ID_N230:
case ID_N240:
case ID_N250:
case ID_N260:
case ID_N270:
case ID_S200:
case ID_S210:
case ID_S220:
case ID_S230:
case ID_S240:
case ID_S250:
case ID_S260:
case ID_S270:
case ID_E200:
case ID_E210:
case ID_E220:
case ID_E230:
case ID_E240:
case ID_E250:
case ID_E260:
case ID_E270:
case ID_W200:
case ID_W210:
case ID_W220:
case ID_W230:
case ID_W240:
case ID_W250:
case ID_W260:
case ID_W270:
len = id_X2;
break;
case ID_N800:
case ID_N810:
case ID_N820:
case ID_N830:
case ID_S800:
case ID_S810:
case ID_S820:
case ID_S830:
case ID_E800:
case ID_E810:
case ID_E820:
case ID_E830:
case ID_W800:
case ID_W810:
case ID_W820:
case ID_W830:
len = id_X8;
break;
case ID_GT00:
case ID_GT10:
glbsrc = id_SPINE_TAP_PCLK;
break;
case ID_GBO0:
case ID_GBO1:
glbsrc = id_TAP_BRANCH_PCLK;
break;
case ID_GB00:
case ID_GB10:
case ID_GB20:
case ID_GB30:
case ID_GB40:
case ID_GB50:
case ID_GB60:
case ID_GB70:
glbsrc = id_BRANCH_PCLK;
break;
default:
if (wire.str(this).rfind("SPINE", 0) == 0) {
glbsrc = IdString(ID_CENT_SPINE_PCLK);
} else if (wire.str(this).rfind("UNK", 0) == 0) {
glbsrc = IdString(ID_PIO_CENT_PCLK);
}
break;
}
if (len != IdString()) {
return delayLookup(speed->wire.timings.get(), speed->wire.num_timings, len);
} else if (glbsrc != IdString()) {
return delayLookup(speed->glbsrc.timings.get(), speed->glbsrc.num_timings, glbsrc);
} else {
return DelayQuad(0);
}
}
static Loc getLoc(std::smatch match, int maxX, int maxY)
{
int col = std::stoi(match[2]);
int row = 1; // Top
std::string side = match[1].str();
if (side == "R") {
row = col;
col = maxX;
} else if (side == "B") {
row = maxY;
} else if (side == "L") {
row = col;
col = 1;
}
int z = match[3].str()[0] - 'A';
return Loc(col - 1, row - 1, z);
}
void Arch::read_cst(std::istream &in)
{
// If two locations are specified separated by commas (for differential I/O buffers),
// only the first location is actually recognized and used.
// And pin A will be Positive and pin B will be Negative in any case.
std::regex iobre = std::regex("IO_LOC +\"([^\"]+)\" +([^ ,;]+)(, *[^ ;]+)? *;.*");
std::regex portre = std::regex("IO_PORT +\"([^\"]+)\" +([^;]+;).*");
std::regex port_attrre = std::regex("([^ =;]+=[^ =;]+) *([^;]*;)");
std::regex iobelre = std::regex("IO([TRBL])([0-9]+)\\[?([A-Z])\\]?");
std::regex inslocre = std::regex("INS_LOC +\"([^\"]+)\" +R([0-9]+)C([0-9]+)\\[([0-9])\\]\\[([AB])\\] *;.*");
std::smatch match, match_attr, match_pinloc;
std::string line, pinline;
enum
{
ioloc,
ioport,
insloc
} cst_type;
settings.erase(id("cst"));
while (!in.eof()) {
std::getline(in, line);
cst_type = ioloc;
if (!std::regex_match(line, match, iobre)) {
if (std::regex_match(line, match, portre)) {
cst_type = ioport;
} else {
if (std::regex_match(line, match, inslocre)) {
cst_type = insloc;
} else {
if ((!line.empty()) && (line.rfind("//", 0) == std::string::npos)) {
log_warning("Invalid constraint: %s\n", line.c_str());
}
continue;
}
}
}
IdString net = id(match[1]);
auto it = cells.find(net);
if (it == cells.end()) {
log_info("Cell %s not found\n", net.c_str(this));
continue;
}
switch (cst_type) {
case ioloc: { // IO_LOC name pin
IdString pinname = id(match[2]);
pinline = match[2];
const PairPOD *belname = pairLookup(package->pins.get(), package->num_pins, pinname.index);
if (belname != nullptr) {
std::string bel = IdString(belname->src_id).str(this);
it->second->setAttr(IdString(ID_BEL), bel);
} else {
if (std::regex_match(pinline, match_pinloc, iobelre)) {
// may be it's IOx#[AB] style?
Loc loc = getLoc(match_pinloc, getGridDimX(), getGridDimY());
BelId bel = getBelByLocation(loc);
if (bel == BelId()) {
log_error("Pin %s not found (TRBL style). \n", pinline.c_str());
}
std::string belname = getCtx()->nameOfBel(bel);
it->second->setAttr(IdString(ID_BEL), belname);
} else {
log_error("Pin %s not found (pin# style)\n", pinname.c_str(this));
}
}
} break;
case insloc: { // INS_LOC
int slice = std::stoi(match[4].str()) * 2;
if (match[5].str() == "B") {
++slice;
}
std::string belname = std::string("R") + match[2].str() + "C" + match[3].str() + stringf("_SLICE%d", slice);
it->second->setAttr(IdString(ID_BEL), belname);
} break;
default: { // IO_PORT attr=value
std::string attr_val = match[2];
while (std::regex_match(attr_val, match_attr, port_attrre)) {
std::string attr = "&";
attr += match_attr[1];
boost::algorithm::to_upper(attr);
it->second->setAttr(id(attr), 1);
attr_val = match_attr[2];
}
}
}
}
settings[id("cst")] = 1;
}
// Add all MUXes for the cell
void Arch::addMuxBels(const DatabasePOD *db, int row, int col)
{
IdString belname, bel_id;
char buf[40];
int z;
// make all wide luts with these parameters
struct
{
char type; // MUX type 5,6,7,8
char bel_idx; // just bel name suffix
char in_prefix[2]; // input from F or OF
char in_idx[2]; // input from bel with idx
} const mux_names[] = {{'5', '0', "", {'0', '1'}}, {'6', '0', "O", {'2', '0'}}, {'5', '1', "", {'2', '3'}},
{'7', '0', "O", {'5', '1'}}, {'5', '2', "", {'4', '5'}}, {'6', '1', "O", {'6', '4'}},
{'5', '3', "", {'6', '7'}}, {'8', '0', "O", {'3', '3'}}};
// 4 MUX2_LUT5, 2 MUX2_LUT6, 1 MUX2_LUT7, 1 MUX2_LUT8
for (int j = 0; j < 8; ++j) {
z = j + mux_0_z;
int grow = row + 1;
int gcol = col + 1;
// no MUX2_LUT8 in the last column
if (j == 7 && col == getGridDimX() - 2) {
continue;
}
// bel
snprintf(buf, 40, "R%dC%d_MUX2_LUT%c%c", grow, gcol, mux_names[j].type, mux_names[j].bel_idx);
belname = id(buf);
snprintf(buf, 40, "GW_MUX2_LUT%c", mux_names[j].type);
bel_id = id(buf);
addBel(belname, bel_id, Loc(col, row, z), false);
// dummy wires
snprintf(buf, 40, "I0MUX%d", j);
IdString id_wire_i0 = id(buf);
IdString wire_i0_name = wireToGlobal(row, col, db, id_wire_i0);
addWire(wire_i0_name, id_wire_i0, col, row);
snprintf(buf, 40, "I1MUX%d", j);
IdString id_wire_i1 = id(buf);
IdString wire_i1_name = wireToGlobal(row, col, db, id_wire_i1);
addWire(wire_i1_name, id_wire_i1, col, row);
// dummy right pip
DelayQuad delay = getWireTypeDelay(id_I0);
snprintf(buf, 40, "%sF%c", mux_names[j].in_prefix, mux_names[j].in_idx[1]);
IdString id_src_F = id(buf);
IdString src_F = wireToGlobal(row, col, db, id_src_F);
snprintf(buf, 40, "R%dC%d_%s_DUMMY_%s", grow, gcol, id_src_F.c_str(this), id_wire_i1.c_str(this));
addPip(id(buf), id_wire_i1, src_F, wire_i1_name, delay, Loc(col, row, 0));
// dummy left pip
snprintf(buf, 40, "%sF%c", mux_names[j].in_prefix, mux_names[j].in_idx[0]);
id_src_F = id(buf);
// LUT8's I0 is wired to the right cell
int src_col = col;
if (j == 7) {
++src_col;
delay = getWireTypeDelay(id_I01);
}
src_F = wireToGlobal(row, src_col, db, id_src_F);
snprintf(buf, 40, "R%dC%d_%s_DUMMY_%s", grow, gcol, id_src_F.c_str(this), id_wire_i0.c_str(this));
addPip(id(buf), id_wire_i0, src_F, wire_i0_name, delay, Loc(col, row, 0));
// the MUX ports
snprintf(buf, 40, "R%dC%d_OF%d", grow, gcol, j);
addBelOutput(belname, id_OF, id(buf));
snprintf(buf, 40, "R%dC%d_SEL%d", grow, gcol, j);
addBelInput(belname, id_SEL, id(buf));
snprintf(buf, 40, "R%dC%d_I0MUX%d", grow, gcol, j);
addBelInput(belname, id_I0, id(buf));
snprintf(buf, 40, "R%dC%d_I1MUX%d", grow, gcol, j);
addBelInput(belname, id_I1, id(buf));
}
}
Arch::Arch(ArchArgs args) : args(args)
{
family = args.family;
// Load database
std::string chipdb = stringf("gowin/chipdb-%s.bin", family.c_str());
auto db = reinterpret_cast<const DatabasePOD *>(get_chipdb(chipdb));
if (db == nullptr) {
log_error("Failed to load chipdb '%s'\n", chipdb.c_str());
}
if (db->version != chipdb_version) {
log_error("Incorrect chipdb version %u is used. Version %u is required\n", db->version, chipdb_version);
}
if (db->family.get() != family) {
log_error("Database is for family '%s' but provided device is family '%s'.\n", db->family.get(),
family.c_str());
}
// setup id strings
for (size_t i = 0; i < db->num_ids; i++) {
IdString::initialize_add(this, db->id_strs[i].get(), uint32_t(i) + db->num_constids);
}
// Empty decal
addDecalGraphic(IdString(), GraphicElement());
if (args.gui) {
// decals
gfxCreateBelDecals(this);
}
// setup package
IdString package_name;
IdString device_id;
IdString speed_id;
for (unsigned int i = 0; i < db->num_partnumbers; i++) {
auto partnumber = &db->partnumber_packages[i];
// std::cout << IdString(partnumber->name_id).str(this) << IdString(partnumber->package_id).str(this) <<
// std::endl;
if (IdString(partnumber->name_id) == id(args.partnumber)) {
package_name = IdString(partnumber->package_id);
device_id = IdString(partnumber->device_id);
speed_id = IdString(partnumber->speed_id);
break;
}
}
if (package_name == IdString()) {
log_error("Unsupported partnumber '%s'.\n", args.partnumber.c_str());
}
// setup timing info
speed = nullptr;
for (unsigned int i = 0; i < db->num_speeds; i++) {
const TimingClassPOD *tc = &db->speeds[i];
// std::cout << IdString(tc->name_id).str(this) << std::endl;
if (IdString(tc->name_id) == speed_id) {
speed = tc->groups.get();
break;
}
}
if (speed == nullptr) {
log_error("Unsupported speed grade '%s'.\n", speed_id.c_str(this));
}
const VariantPOD *variant = nullptr;
for (unsigned int i = 0; i < db->num_variants; i++) {
auto var = &db->variants[i];
// std::cout << IdString(var->name_id).str(this) << std::endl;
if (IdString(var->name_id) == device_id) {
variant = var;
break;
}
}
if (variant == nullptr) {
log_error("Unsupported device grade '%s'.\n", device_id.c_str(this));
}
package = nullptr;
for (unsigned int i = 0; i < variant->num_packages; i++) {
auto pkg = &variant->packages[i];
// std::cout << IdString(pkg->name_id).str(this) << std::endl;
if (IdString(pkg->name_id) == package_name) {
package = pkg;
break;
}
// for (int j=0; j < pkg->num_pins; j++) {
// auto pin = pkg->pins[j];
// std::cout << IdString(pin.src_id).str(this) << " " << IdString(pin.dest_id).str(this) << std::endl;
// }
}
if (package == nullptr) {
log_error("Unsupported package '%s'.\n", package_name.c_str(this));
}
//
log_info("Series:%s Device:%s Package:%s Speed:%s\n", family.c_str(), device_id.c_str(this),
package_name.c_str(this), speed_id.c_str(this));
// setup db
char buf[32];
// The reverse order of the enumeration simplifies the creation
// of MUX2_LUT8s: they need the existence of the wire on the right.
for (int i = db->rows * db->cols - 1; i >= 0; --i) {
IdString grpname;
int row = i / db->cols;
int col = i % db->cols;
const TilePOD *tile = db->grid[i].get();
if (args.gui) {
// CRU decal
snprintf(buf, 32, "R%dC%d_CRU", row + 1, col + 1);
grpname = id(buf);
addGroup(grpname);
setGroupDecal(grpname, gfxGetCruGroupDecalXY(col, row));
}
// setup wires
const PairPOD *pips[2] = {tile->pips.get(), tile->clock_pips.get()};
unsigned int num_pips[2] = {tile->num_pips, tile->num_clock_pips};
for (int p = 0; p < 2; p++) {
for (unsigned int j = 0; j < num_pips[p]; j++) {
const PairPOD pip = pips[p][j];
int destrow = row;
int destcol = col;
IdString destid(pip.dest_id), gdestid(pip.dest_id);
IdString gdestname = wireToGlobal(destrow, destcol, db, gdestid);
if (wires.count(gdestname) == 0)
addWire(gdestname, destid, destcol, destrow);
int srcrow = row;
int srccol = col;
IdString srcid(pip.src_id), gsrcid(pip.src_id);
IdString gsrcname = wireToGlobal(srcrow, srccol, db, gsrcid);
if (wires.count(gsrcname) == 0)
addWire(gsrcname, srcid, srccol, srcrow);
}
}
for (unsigned int j = 0; j < tile->num_bels; j++) {
const BelsPOD *bel = &tile->bels[j];
IdString belname;
IdString portname;
int z = 0;
bool dff = true;
switch (static_cast<ConstIds>(bel->type_id)) {
// fall through the ++
case ID_LUT7:
z++;
dff = false; /* fall-through*/
case ID_LUT6:
z++;
dff = false; /* fall-through*/
case ID_LUT5:
z++; /* fall-through*/
case ID_LUT4:
z++; /* fall-through*/
case ID_LUT3:
z++; /* fall-through*/
case ID_LUT2:
z++; /* fall-through*/
case ID_LUT1:
z++; /* fall-through*/
case ID_LUT0:
// common LUT+DFF code
snprintf(buf, 32, "R%dC%d_SLICE%d", row + 1, col + 1, z);
belname = id(buf);
addBel(belname, id_SLICE, Loc(col, row, z), false);
snprintf(buf, 32, "R%dC%d_F%d", row + 1, col + 1, z);
addBelOutput(belname, id_F, id(buf));
snprintf(buf, 32, "R%dC%d_A%d", row + 1, col + 1, z);
addBelInput(belname, id_A, id(buf));
snprintf(buf, 32, "R%dC%d_B%d", row + 1, col + 1, z);
addBelInput(belname, id_B, id(buf));
snprintf(buf, 32, "R%dC%d_C%d", row + 1, col + 1, z);
addBelInput(belname, id_C, id(buf));
snprintf(buf, 32, "R%dC%d_D%d", row + 1, col + 1, z);
addBelInput(belname, id_D, id(buf));
if (dff) {
snprintf(buf, 32, "R%dC%d_CLK%d", row + 1, col + 1, z / 2);
addBelInput(belname, id_CLK, id(buf));
snprintf(buf, 32, "R%dC%d_LSR%d", row + 1, col + 1, z / 2);
addBelInput(belname, id_LSR, id(buf));
snprintf(buf, 32, "R%dC%d_CE%d", row + 1, col + 1, z / 2);
addBelInput(belname, id_CE, id(buf));
snprintf(buf, 32, "R%dC%d_Q%d", row + 1, col + 1, z);
addBelOutput(belname, id_Q, id(buf));
}
if (z == 0) {
addMuxBels(db, row, col);
}
if (z % 2 == 0) {
snprintf(buf, 32, "R%dC%d_LUT_GRP%d", row + 1, col + 1, z);
grpname = id(buf);
if (args.gui) {
addGroup(grpname);
setGroupDecal(grpname, gfxGetLutGroupDecalXY(col, row, z >> 1));
}
}
break;
case ID_IOBJ:
z++; /* fall-through*/
case ID_IOBI:
z++; /* fall-through*/
case ID_IOBH:
z++; /* fall-through*/
case ID_IOBG:
z++; /* fall-through*/
case ID_IOBF:
z++; /* fall-through*/
case ID_IOBE:
z++; /* fall-through*/
case ID_IOBD:
z++; /* fall-through*/
case ID_IOBC:
z++; /* fall-through*/
case ID_IOBB:
z++; /* fall-through*/
case ID_IOBA:
snprintf(buf, 32, "R%dC%d_IOB%c", row + 1, col + 1, 'A' + z);
belname = id(buf);
addBel(belname, id_IOB, Loc(col, row, z), false);
portname = IdString(pairLookup(bel->ports.get(), bel->num_ports, ID_O)->src_id);
snprintf(buf, 32, "R%dC%d_%s", row + 1, col + 1, portname.c_str(this));
addBelOutput(belname, id_O, id(buf));
portname = IdString(pairLookup(bel->ports.get(), bel->num_ports, ID_I)->src_id);
snprintf(buf, 32, "R%dC%d_%s", row + 1, col + 1, portname.c_str(this));
addBelInput(belname, id_I, id(buf));
portname = IdString(pairLookup(bel->ports.get(), bel->num_ports, ID_OE)->src_id);
snprintf(buf, 32, "R%dC%d_%s", row + 1, col + 1, portname.c_str(this));
addBelInput(belname, id_OEN, id(buf));
break;
// Simplified IO
case ID_IOBJS:
z++; /* fall-through*/
case ID_IOBIS:
z++; /* fall-through*/
case ID_IOBHS:
z++; /* fall-through*/
case ID_IOBGS:
z++; /* fall-through*/
case ID_IOBFS:
z++; /* fall-through*/
case ID_IOBES:
z++; /* fall-through*/
case ID_IOBDS:
z++; /* fall-through*/
case ID_IOBCS:
z++; /* fall-through*/
case ID_IOBBS:
z++; /* fall-through*/
case ID_IOBAS:
snprintf(buf, 32, "R%dC%d_IOB%c", row + 1, col + 1, 'A' + z);
belname = id(buf);
addBel(belname, id_IOBS, Loc(col, row, z), false);
portname = IdString(pairLookup(bel->ports.get(), bel->num_ports, ID_O)->src_id);
snprintf(buf, 32, "R%dC%d_%s", row + 1, col + 1, portname.c_str(this));
addBelOutput(belname, id_O, id(buf));
portname = IdString(pairLookup(bel->ports.get(), bel->num_ports, ID_I)->src_id);
snprintf(buf, 32, "R%dC%d_%s", row + 1, col + 1, portname.c_str(this));
addBelInput(belname, id_I, id(buf));
portname = IdString(pairLookup(bel->ports.get(), bel->num_ports, ID_OE)->src_id);
snprintf(buf, 32, "R%dC%d_%s", row + 1, col + 1, portname.c_str(this));
addBelInput(belname, id_OEN, id(buf));
break;
default:
break;
}
}
}
// setup pips
for (int i = 0; i < db->rows * db->cols; i++) {
int row = i / db->cols;
int col = i % db->cols;
const TilePOD *tile = db->grid[i].get();
const PairPOD *pips[2] = {tile->pips.get(), tile->clock_pips.get()};
unsigned int num_pips[2] = {tile->num_pips, tile->num_clock_pips};
for (int p = 0; p < 2; p++) {
for (unsigned int j = 0; j < num_pips[p]; j++) {
const PairPOD pip = pips[p][j];
int destrow = row;
int destcol = col;
IdString destid(pip.dest_id), gdestid(pip.dest_id);
IdString gdestname = wireToGlobal(destrow, destcol, db, gdestid);
int srcrow = row;
int srccol = col;
IdString srcid(pip.src_id), gsrcid(pip.src_id);
IdString gsrcname = wireToGlobal(srcrow, srccol, db, gsrcid);
snprintf(buf, 32, "R%dC%d_%s_%s", row + 1, col + 1, srcid.c_str(this), destid.c_str(this));
IdString pipname = id(buf);
DelayQuad delay = getWireTypeDelay(destid);
// local alias
auto local_alias = pairLookup(tile->aliases.get(), tile->num_aliases, srcid.index);
if (local_alias != nullptr) {
srcid = IdString(local_alias->src_id);
gsrcname = wireToGlobal(srcrow, srccol, db, srcid);
}
// global alias
srcid = IdString(pip.src_id);
GlobalAliasPOD alias;
alias.dest_col = srccol;
alias.dest_row = srcrow;
alias.dest_id = srcid.index;
auto alias_src = genericLookup(db->aliases.get(), db->num_aliases, alias, aliasCompare);
if (alias_src != nullptr) {
srccol = alias_src->src_col;
srcrow = alias_src->src_row;
srcid = IdString(alias_src->src_id);
gsrcname = wireToGlobal(srcrow, srccol, db, srcid);
}
addPip(pipname, destid, gsrcname, gdestname, delay, Loc(col, row, j));
}
}
}
if (args.gui) {
setDefaultDecals();
}
// Permissible combinations of modes in a single slice
dff_comp_mode[id_DFF] = id_DFF;
dff_comp_mode[id_DFFE] = id_DFFE;
dff_comp_mode[id_DFFS] = id_DFFR;
dff_comp_mode[id_DFFR] = id_DFFS;
dff_comp_mode[id_DFFSE] = id_DFFRE;
dff_comp_mode[id_DFFRE] = id_DFFSE;
dff_comp_mode[id_DFFP] = id_DFFC;
dff_comp_mode[id_DFFC] = id_DFFP;
dff_comp_mode[id_DFFPE] = id_DFFCE;
dff_comp_mode[id_DFFCE] = id_DFFPE;
dff_comp_mode[id_DFFNS] = id_DFFNR;
dff_comp_mode[id_DFFNR] = id_DFFNS;
dff_comp_mode[id_DFFNSE] = id_DFFNRE;
dff_comp_mode[id_DFFNRE] = id_DFFNSE;
dff_comp_mode[id_DFFNP] = id_DFFNC;
dff_comp_mode[id_DFFNC] = id_DFFNP;
dff_comp_mode[id_DFFNPE] = id_DFFNCE;
dff_comp_mode[id_DFFNCE] = id_DFFNPE;
BaseArch::init_cell_types();
BaseArch::init_bel_buckets();
}
void IdString::initialize_arch(const BaseCtx *ctx)
{
#define X(t) initialize_add(ctx, #t, ID_##t);
#include "constids.inc"
#undef X
}
// ---------------------------------------------------------------
BelId Arch::getBelByName(IdStringList name) const
{
if (bels.count(name[0]))
return name[0];
return BelId();
}
IdStringList Arch::getBelName(BelId bel) const { return IdStringList(bel); }
Loc Arch::getBelLocation(BelId bel) const
{
auto &info = bels.at(bel);
return Loc(info.x, info.y, info.z);
}
BelId Arch::getBelByLocation(Loc loc) const
{
auto it = bel_by_loc.find(loc);
if (it != bel_by_loc.end())
return it->second;
return BelId();
}
const std::vector<BelId> &Arch::getBelsByTile(int x, int y) const { return bels_by_tile.at(x).at(y); }
bool Arch::haveBelType(int x, int y, IdString bel_type)
{
for (auto bel : getBelsByTile(x, y)) {
BelInfo bi = bel_info(bel);
if (bi.type == bel_type) {
return true;
}
}
return false;
}
bool Arch::getBelGlobalBuf(BelId bel) const { return bels.at(bel).gb; }
void Arch::bindBel(BelId bel, CellInfo *cell, PlaceStrength strength)
{
bels.at(bel).bound_cell = cell;
cell->bel = bel;
cell->belStrength = strength;
refreshUiBel(bel);
}
void Arch::unbindBel(BelId bel)
{
bels.at(bel).bound_cell->bel = BelId();
bels.at(bel).bound_cell->belStrength = STRENGTH_NONE;
bels.at(bel).bound_cell = nullptr;
refreshUiBel(bel);
}
bool Arch::checkBelAvail(BelId bel) const { return bels.at(bel).bound_cell == nullptr; }
CellInfo *Arch::getBoundBelCell(BelId bel) const { return bels.at(bel).bound_cell; }
CellInfo *Arch::getConflictingBelCell(BelId bel) const { return bels.at(bel).bound_cell; }
const std::vector<BelId> &Arch::getBels() const { return bel_ids; }
IdString Arch::getBelType(BelId bel) const { return bels.at(bel).type; }
const std::map<IdString, std::string> &Arch::getBelAttrs(BelId bel) const { return bels.at(bel).attrs; }
WireId Arch::getBelPinWire(BelId bel, IdString pin) const
{
const auto &bdata = bels.at(bel);
if (!bdata.pins.count(pin))
log_error("bel '%s' has no pin '%s'\n", bel.c_str(this), pin.c_str(this));
return bdata.pins.at(pin).wire;
}
PortType Arch::getBelPinType(BelId bel, IdString pin) const { return bels.at(bel).pins.at(pin).type; }
std::vector<IdString> Arch::getBelPins(BelId bel) const
{
std::vector<IdString> ret;
for (auto &it : bels.at(bel).pins)
ret.push_back(it.first);
return ret;
}
std::array<IdString, 1> Arch::getBelPinsForCellPin(const CellInfo *cell_info, IdString pin) const { return {pin}; }
// ---------------------------------------------------------------
WireId Arch::getWireByName(IdStringList name) const
{
if (wires.count(name[0]))
return name[0];
return WireId();
}
IdStringList Arch::getWireName(WireId wire) const { return IdStringList(wire); }
IdString Arch::getWireType(WireId wire) const { return wires.at(wire).type; }
const std::map<IdString, std::string> &Arch::getWireAttrs(WireId wire) const { return wires.at(wire).attrs; }
void Arch::bindWire(WireId wire, NetInfo *net, PlaceStrength strength)
{
wires.at(wire).bound_net = net;
net->wires[wire].pip = PipId();
net->wires[wire].strength = strength;
refreshUiWire(wire);
}
void Arch::unbindWire(WireId wire)
{
auto &net_wires = wires.at(wire).bound_net->wires;
auto pip = net_wires.at(wire).pip;
if (pip != PipId()) {
pips.at(pip).bound_net = nullptr;
refreshUiPip(pip);
}
net_wires.erase(wire);
wires.at(wire).bound_net = nullptr;
refreshUiWire(wire);
}
bool Arch::checkWireAvail(WireId wire) const { return wires.at(wire).bound_net == nullptr; }
NetInfo *Arch::getBoundWireNet(WireId wire) const { return wires.at(wire).bound_net; }
NetInfo *Arch::getConflictingWireNet(WireId wire) const { return wires.at(wire).bound_net; }
const std::vector<BelPin> &Arch::getWireBelPins(WireId wire) const { return wires.at(wire).bel_pins; }
const std::vector<WireId> &Arch::getWires() const { return wire_ids; }
// ---------------------------------------------------------------
PipId Arch::getPipByName(IdStringList name) const
{
if (pips.count(name[0]))
return name[0];
return PipId();
}
IdStringList Arch::getPipName(PipId pip) const { return IdStringList(pip); }
IdString Arch::getPipType(PipId pip) const { return pips.at(pip).type; }
const std::map<IdString, std::string> &Arch::getPipAttrs(PipId pip) const { return pips.at(pip).attrs; }
void Arch::bindPip(PipId pip, NetInfo *net, PlaceStrength strength)
{
WireId wire = pips.at(pip).dstWire;
pips.at(pip).bound_net = net;
wires.at(wire).bound_net = net;
net->wires[wire].pip = pip;
net->wires[wire].strength = strength;
refreshUiPip(pip);
refreshUiWire(wire);
}
void Arch::unbindPip(PipId pip)
{
WireId wire = pips.at(pip).dstWire;
wires.at(wire).bound_net->wires.erase(wire);
pips.at(pip).bound_net = nullptr;
wires.at(wire).bound_net = nullptr;
refreshUiPip(pip);
refreshUiWire(wire);
}
bool Arch::checkPipAvail(PipId pip) const { return pips.at(pip).bound_net == nullptr; }
NetInfo *Arch::getBoundPipNet(PipId pip) const { return pips.at(pip).bound_net; }
NetInfo *Arch::getConflictingPipNet(PipId pip) const { return pips.at(pip).bound_net; }
WireId Arch::getConflictingPipWire(PipId pip) const { return pips.at(pip).bound_net ? pips.at(pip).dstWire : WireId(); }
const std::vector<PipId> &Arch::getPips() const { return pip_ids; }
Loc Arch::getPipLocation(PipId pip) const { return pips.at(pip).loc; }
WireId Arch::getPipSrcWire(PipId pip) const { return pips.at(pip).srcWire; }
WireId Arch::getPipDstWire(PipId pip) const { return pips.at(pip).dstWire; }
DelayQuad Arch::getPipDelay(PipId pip) const { return pips.at(pip).delay; }
const std::vector<PipId> &Arch::getPipsDownhill(WireId wire) const { return wires.at(wire).downhill; }
const std::vector<PipId> &Arch::getPipsUphill(WireId wire) const { return wires.at(wire).uphill; }
// ---------------------------------------------------------------
GroupId Arch::getGroupByName(IdStringList name) const { return name[0]; }
IdStringList Arch::getGroupName(GroupId group) const { return IdStringList(group); }
std::vector<GroupId> Arch::getGroups() const
{
std::vector<GroupId> ret;
for (auto &it : groups)
ret.push_back(it.first);
return ret;
}
const std::vector<BelId> &Arch::getGroupBels(GroupId group) const { return groups.at(group).bels; }
const std::vector<WireId> &Arch::getGroupWires(GroupId group) const { return groups.at(group).wires; }
const std::vector<PipId> &Arch::getGroupPips(GroupId group) const { return groups.at(group).pips; }
const std::vector<GroupId> &Arch::getGroupGroups(GroupId group) const { return groups.at(group).groups; }
// ---------------------------------------------------------------
delay_t Arch::estimateDelay(WireId src, WireId dst) const
{
const WireInfo &s = wires.at(src);
const WireInfo &d = wires.at(dst);
int dx = abs(s.x - d.x);
int dy = abs(s.y - d.y);
return (dx + dy) * args.delayScale + args.delayOffset;
}
delay_t Arch::predictDelay(BelId src_bel, IdString src_pin, BelId dst_bel, IdString dst_pin) const
{
NPNR_UNUSED(src_pin);
NPNR_UNUSED(dst_pin);
auto driver_loc = getBelLocation(src_bel);
auto sink_loc = getBelLocation(dst_bel);
int dx = abs(sink_loc.x - driver_loc.x);
int dy = abs(sink_loc.y - driver_loc.y);
return (dx + dy) * args.delayScale + args.delayOffset;
}
bool Arch::getBudgetOverride(const NetInfo *net_info, const PortRef &sink, delay_t &budget) const { return false; }
ArcBounds Arch::getRouteBoundingBox(WireId src, WireId dst) const
{
ArcBounds bb;
int src_x = wires.at(src).x;
int src_y = wires.at(src).y;
int dst_x = wires.at(dst).x;
int dst_y = wires.at(dst).y;
bb.x0 = src_x;
bb.y0 = src_y;
bb.x1 = src_x;
bb.y1 = src_y;
auto extend = [&](int x, int y) {
bb.x0 = std::min(bb.x0, x);
bb.x1 = std::max(bb.x1, x);
bb.y0 = std::min(bb.y0, y);
bb.y1 = std::max(bb.y1, y);
};
extend(dst_x, dst_y);
return bb;
}
// ---------------------------------------------------------------
bool Arch::place()
{
std::string placer = str_or_default(settings, id("placer"), defaultPlacer);
bool retVal;
if (placer == "heap") {
bool have_iobuf_or_constr = false;
for (auto &cell : cells) {
CellInfo *ci = cell.second.get();
if (ci->type == id("IOB") || ci->bel != BelId() || ci->attrs.count(id("BEL"))) {
have_iobuf_or_constr = true;
break;
}
}
if (!have_iobuf_or_constr) {
log_warning("Unable to use HeAP due to a lack of IO buffers or constrained cells as anchors; reverting to "
"SA.\n");
retVal = placer1(getCtx(), Placer1Cfg(getCtx()));
} else {
PlacerHeapCfg cfg(getCtx());
cfg.ioBufTypes.insert(id("IOB"));
cfg.beta = 0.5;
retVal = placer_heap(getCtx(), cfg);
}
getCtx()->settings[getCtx()->id("place")] = 1;
archInfoToAttributes();
} else if (placer == "sa") {
retVal = placer1(getCtx(), Placer1Cfg(getCtx()));
getCtx()->settings[getCtx()->id("place")] = 1;
archInfoToAttributes();
return retVal;
} else {
log_error("Gowin architecture does not support placer '%s'\n", placer.c_str());
}
// debug placement
if (getCtx()->debug) {
for (auto &cell : getCtx()->cells) {
log_info("Placed: %s -> %s\n", cell.first.c_str(getCtx()), getCtx()->nameOfBel(cell.second->bel));
}
}
return retVal;
}
bool Arch::route()
{
std::string router = str_or_default(settings, id("router"), defaultRouter);
bool result;
if (router == "router1") {
result = router1(getCtx(), Router1Cfg(getCtx()));
} else if (router == "router2") {
router2(getCtx(), Router2Cfg(getCtx()));
result = true;
} else {
log_error("Gowin architecture does not support router '%s'\n", router.c_str());
}
getCtx()->settings[getCtx()->id("route")] = 1;
archInfoToAttributes();
return result;
}
// ---------------------------------------------------------------
std::vector<GraphicElement> Arch::getDecalGraphics(DecalId decal) const
{
if (!decal_graphics.count(decal)) {
// XXX
return std::vector<GraphicElement>();
}
return decal_graphics.at(decal);
}
// ---------------------------------------------------------------
bool Arch::getCellDelay(const CellInfo *cell, IdString fromPort, IdString toPort, DelayQuad &delay) const
{
if (!cellTiming.count(cell->name))
return false;
const auto &tmg = cellTiming.at(cell->name);
auto fnd = tmg.combDelays.find(CellDelayKey{fromPort, toPort});
if (fnd != tmg.combDelays.end()) {
delay = fnd->second;
return true;
} else {
return false;
}
}
// Get the port class, also setting clockPort if applicable
TimingPortClass Arch::getPortTimingClass(const CellInfo *cell, IdString port, int &clockInfoCount) const
{
if (!cellTiming.count(cell->name))
return TMG_IGNORE;
const auto &tmg = cellTiming.at(cell->name);
if (tmg.clockingInfo.count(port))
clockInfoCount = int(tmg.clockingInfo.at(port).size());
else
clockInfoCount = 0;
return get_or_default(tmg.portClasses, port, TMG_IGNORE);
}
TimingClockingInfo Arch::getPortClockingInfo(const CellInfo *cell, IdString port, int index) const
{
NPNR_ASSERT(cellTiming.count(cell->name));
const auto &tmg = cellTiming.at(cell->name);
NPNR_ASSERT(tmg.clockingInfo.count(port));
return tmg.clockingInfo.at(port).at(index);
}
bool Arch::isBelLocationValid(BelId bel) const
{
Loc loc = getBelLocation(bel);
std::vector<const CellInfo *> cells;
for (auto tbel : getBelsByTile(loc.x, loc.y)) {
CellInfo *bound = getBoundBelCell(tbel);
if (bound != nullptr)
cells.push_back(bound);
}
return cellsCompatible(cells.data(), int(cells.size()));
}
#ifdef WITH_HEAP
const std::string Arch::defaultPlacer = "heap";
#else
const std::string Arch::defaultPlacer = "sa";
#endif
const std::vector<std::string> Arch::availablePlacers = {"sa",
#ifdef WITH_HEAP
"heap"
#endif
};
const std::string Arch::defaultRouter = "router1";
const std::vector<std::string> Arch::availableRouters = {"router1", "router2"};
void Arch::assignArchInfo()
{
for (auto &cell : getCtx()->cells) {
IdString cname = cell.first;
CellInfo *ci = cell.second.get();
DelayQuad delay = DelayQuad(0);
ci->is_slice = false;
switch (ci->type.index) {
case ID_SLICE: {
ci->is_slice = true;
ci->ff_used = ci->params.at(id_FF_USED).as_bool();
ci->ff_type = id(ci->params.at(id_FF_TYPE).as_string());
ci->slice_clk = get_net_or_empty(ci, id("CLK"));
ci->slice_ce = get_net_or_empty(ci, id("CE"));
ci->slice_lsr = get_net_or_empty(ci, id("LSR"));
// add timing paths
addCellTimingClock(cname, id_CLK);
IdString ports[4] = {id_A, id_B, id_C, id_D};
for (int i = 0; i < 4; i++) {
DelayPair setup =
delayLookup(speed->dff.timings.get(), speed->dff.num_timings, id_clksetpos).delayPair();
DelayPair hold =
delayLookup(speed->dff.timings.get(), speed->dff.num_timings, id_clkholdpos).delayPair();
addCellTimingSetupHold(cname, ports[i], id_CLK, setup, hold);
}
DelayQuad clkout = delayLookup(speed->dff.timings.get(), speed->dff.num_timings, id_clk_qpos);
addCellTimingClockToOut(cname, id_Q, id_CLK, clkout);
IdString port_delay[4] = {id_a_f, id_b_f, id_c_f, id_d_f};
for (int i = 0; i < 4; i++) {
DelayQuad delay = delayLookup(speed->lut.timings.get(), speed->lut.num_timings, port_delay[i]);
addCellTimingDelay(cname, ports[i], id_F, delay);
}
break;
}
case ID_GW_MUX2_LUT8:
delay = delay + delayLookup(speed->lut.timings.get(), speed->lut.num_timings, id_fx_ofx1);
/* FALLTHRU */
case ID_GW_MUX2_LUT7:
delay = delay + delayLookup(speed->lut.timings.get(), speed->lut.num_timings, id_fx_ofx1);
/* FALLTHRU */
case ID_GW_MUX2_LUT6:
delay = delay + delayLookup(speed->lut.timings.get(), speed->lut.num_timings, id_fx_ofx1);
/* FALLTHRU */
case ID_GW_MUX2_LUT5: {
delay = delay + delayLookup(speed->lut.timings.get(), speed->lut.num_timings, id_fx_ofx1);
addCellTimingDelay(cname, id_I0, id_OF, delay);
addCellTimingDelay(cname, id_I1, id_OF, delay);
}
default:
break;
}
}
}
bool Arch::cellsCompatible(const CellInfo **cells, int count) const
{
const NetInfo *clk[4] = {nullptr, nullptr, nullptr, nullptr};
const NetInfo *ce[4] = {nullptr, nullptr, nullptr, nullptr};
const NetInfo *lsr[4] = {nullptr, nullptr, nullptr, nullptr};
IdString mode[4] = {IdString(), IdString(), IdString(), IdString()};
for (int i = 0; i < count; i++) {
const CellInfo *ci = cells[i];
if (ci->is_slice) {
Loc loc = getBelLocation(ci->bel);
int cls = loc.z / 2;
if (loc.z >= 6 && ci->ff_used) // top slice have no ff
return false;
if (clk[cls] == nullptr)
clk[cls] = ci->slice_clk;
else if (clk[cls] != ci->slice_clk)
return false;
if (ce[cls] == nullptr)
ce[cls] = ci->slice_ce;
else if (ce[cls] != ci->slice_ce)
return false;
if (lsr[cls] == nullptr)
lsr[cls] = ci->slice_lsr;
else if (lsr[cls] != ci->slice_lsr)
return false;
if (mode[cls] == IdString())
mode[cls] = ci->ff_type;
else if (mode[cls] != ci->ff_type) {
auto res = dff_comp_mode.find(mode[cls]);
if (res == dff_comp_mode.end() || res->second != ci->ff_type)
return false;
}
}
}
return true;
}
NEXTPNR_NAMESPACE_END
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