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|
/*
* nextpnr -- Next Generation Place and Route
*
* Copyright (C) 2018 Clifford Wolf <clifford@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.
*
*/
#ifndef NEXTPNR_H
#error Include "arch.h" via "nextpnr.h" only.
#endif
NEXTPNR_NAMESPACE_BEGIN
/**** Everything in this section must be kept in sync with chipdb.py ****/
#include "relptr.h"
NPNR_PACKED_STRUCT(struct BelWirePOD {
int32_t port;
int32_t type;
int32_t wire_index;
});
NPNR_PACKED_STRUCT(struct BelInfoPOD {
RelPtr<char> name;
int32_t type;
RelSlice<BelWirePOD> bel_wires;
int8_t x, y, z;
int8_t padding_0;
});
NPNR_PACKED_STRUCT(struct BelPortPOD {
int32_t bel_index;
int32_t port;
});
NPNR_PACKED_STRUCT(struct PipInfoPOD {
enum PipFlags : uint32_t
{
FLAG_NONE = 0,
FLAG_ROUTETHRU = 1,
FLAG_NOCARRY = 2
};
// RelPtr<char> name;
int32_t src, dst;
int32_t fast_delay;
int32_t slow_delay;
int8_t x, y;
int16_t src_seg, dst_seg;
int16_t switch_mask;
int32_t switch_index;
PipFlags flags;
});
NPNR_PACKED_STRUCT(struct WireSegmentPOD {
int8_t x, y;
int16_t index;
});
NPNR_PACKED_STRUCT(struct WireInfoPOD {
enum WireType : int8_t
{
WIRE_TYPE_NONE = 0,
WIRE_TYPE_GLB2LOCAL = 1,
WIRE_TYPE_GLB_NETWK = 2,
WIRE_TYPE_LOCAL = 3,
WIRE_TYPE_LUTFF_IN = 4,
WIRE_TYPE_LUTFF_IN_LUT = 5,
WIRE_TYPE_LUTFF_LOUT = 6,
WIRE_TYPE_LUTFF_OUT = 7,
WIRE_TYPE_LUTFF_COUT = 8,
WIRE_TYPE_LUTFF_GLOBAL = 9,
WIRE_TYPE_CARRY_IN_MUX = 10,
WIRE_TYPE_SP4_V = 11,
WIRE_TYPE_SP4_H = 12,
WIRE_TYPE_SP12_V = 13,
WIRE_TYPE_SP12_H = 14
};
RelPtr<char> name;
int8_t name_x, name_y;
int16_t padding;
RelSlice<int32_t> pips_uphill, pips_downhill;
RelSlice<BelPortPOD> bel_pins;
RelSlice<WireSegmentPOD> segments;
int32_t fast_delay;
int32_t slow_delay;
int8_t x, y, z;
WireType type;
});
NPNR_PACKED_STRUCT(struct PackagePinPOD {
RelPtr<char> name;
int32_t bel_index;
});
NPNR_PACKED_STRUCT(struct PackageInfoPOD {
RelPtr<char> name;
RelSlice<PackagePinPOD> pins;
});
enum TileType : uint32_t
{
TILE_NONE = 0,
TILE_LOGIC = 1,
TILE_IO = 2,
TILE_RAMB = 3,
TILE_RAMT = 4,
TILE_DSP0 = 5,
TILE_DSP1 = 6,
TILE_DSP2 = 7,
TILE_DSP3 = 8,
TILE_IPCON = 9
};
NPNR_PACKED_STRUCT(struct ConfigBitPOD { int8_t row, col; });
NPNR_PACKED_STRUCT(struct ConfigEntryPOD {
RelPtr<char> name;
RelSlice<ConfigBitPOD> bits;
});
NPNR_PACKED_STRUCT(struct TileInfoPOD {
int8_t cols, rows;
int16_t padding;
RelSlice<ConfigEntryPOD> entries;
});
static const int max_switch_bits = 5;
NPNR_PACKED_STRUCT(struct SwitchInfoPOD {
int32_t num_bits;
int32_t bel;
int8_t x, y;
ConfigBitPOD cbits[max_switch_bits];
});
NPNR_PACKED_STRUCT(struct IerenInfoPOD {
int8_t iox, ioy, ioz;
int8_t ierx, iery, ierz;
});
NPNR_PACKED_STRUCT(struct BitstreamInfoPOD {
RelSlice<TileInfoPOD> tiles_nonrouting;
RelSlice<SwitchInfoPOD> switches;
RelSlice<IerenInfoPOD> ierens;
});
NPNR_PACKED_STRUCT(struct BelConfigEntryPOD {
RelPtr<char> entry_name;
RelPtr<char> cbit_name;
int8_t x, y;
int16_t padding;
});
// Stores mapping between bel parameters and config bits,
// for extra cells where this mapping is non-trivial
NPNR_PACKED_STRUCT(struct BelConfigPOD {
int32_t bel_index;
RelSlice<BelConfigEntryPOD> entries;
});
NPNR_PACKED_STRUCT(struct CellPathDelayPOD {
int32_t from_port;
int32_t to_port;
int32_t fast_delay;
int32_t slow_delay;
});
NPNR_PACKED_STRUCT(struct CellTimingPOD {
int32_t type;
RelSlice<CellPathDelayPOD> path_delays;
});
NPNR_PACKED_STRUCT(struct GlobalNetworkInfoPOD {
uint8_t gb_x;
uint8_t gb_y;
uint8_t pi_gb_x;
uint8_t pi_gb_y;
uint8_t pi_gb_pio;
uint8_t pi_eb_bank;
uint16_t pi_eb_x;
uint16_t pi_eb_y;
uint16_t pad;
});
NPNR_PACKED_STRUCT(struct ChipInfoPOD {
int32_t width, height;
uint32_t num_switches;
RelSlice<BelInfoPOD> bel_data;
RelSlice<WireInfoPOD> wire_data;
RelSlice<PipInfoPOD> pip_data;
RelSlice<TileType> tile_grid;
RelPtr<BitstreamInfoPOD> bits_info;
RelSlice<BelConfigPOD> bel_config;
RelSlice<PackageInfoPOD> packages_data;
RelSlice<CellTimingPOD> cell_timing;
RelSlice<GlobalNetworkInfoPOD> global_network_info;
RelSlice<RelPtr<char>> tile_wire_names;
});
/************************ End of chipdb section. ************************/
struct BelIterator
{
int cursor;
BelIterator operator++()
{
cursor++;
return *this;
}
BelIterator operator++(int)
{
BelIterator prior(*this);
cursor++;
return prior;
}
bool operator!=(const BelIterator &other) const { return cursor != other.cursor; }
bool operator==(const BelIterator &other) const { return cursor == other.cursor; }
BelId operator*() const
{
BelId ret;
ret.index = cursor;
return ret;
}
};
struct BelRange
{
BelIterator b, e;
BelIterator begin() const { return b; }
BelIterator end() const { return e; }
};
// -----------------------------------------------------------------------
struct BelPinIterator
{
const BelPortPOD *ptr = nullptr;
void operator++() { ptr++; }
bool operator!=(const BelPinIterator &other) const { return ptr != other.ptr; }
BelPin operator*() const
{
BelPin ret;
ret.bel.index = ptr->bel_index;
ret.pin = IdString(ptr->port);
return ret;
}
};
struct BelPinRange
{
BelPinIterator b, e;
BelPinIterator begin() const { return b; }
BelPinIterator end() const { return e; }
};
// -----------------------------------------------------------------------
struct WireIterator
{
int cursor = -1;
void operator++() { cursor++; }
bool operator!=(const WireIterator &other) const { return cursor != other.cursor; }
WireId operator*() const
{
WireId ret;
ret.index = cursor;
return ret;
}
};
struct WireRange
{
WireIterator b, e;
WireIterator begin() const { return b; }
WireIterator end() const { return e; }
};
// -----------------------------------------------------------------------
struct AllPipIterator
{
int cursor = -1;
void operator++() { cursor++; }
bool operator!=(const AllPipIterator &other) const { return cursor != other.cursor; }
PipId operator*() const
{
PipId ret;
ret.index = cursor;
return ret;
}
};
struct AllPipRange
{
AllPipIterator b, e;
AllPipIterator begin() const { return b; }
AllPipIterator end() const { return e; }
};
// -----------------------------------------------------------------------
struct PipIterator
{
const int *cursor = nullptr;
void operator++() { cursor++; }
bool operator!=(const PipIterator &other) const { return cursor != other.cursor; }
PipId operator*() const
{
PipId ret;
ret.index = *cursor;
return ret;
}
};
struct PipRange
{
PipIterator b, e;
PipIterator begin() const { return b; }
PipIterator end() const { return e; }
};
struct ArchArgs
{
enum ArchArgsTypes
{
NONE,
LP384,
LP1K,
LP4K,
LP8K,
HX1K,
HX4K,
HX8K,
UP3K,
UP5K,
U1K,
U2K,
U4K
} type = NONE;
std::string package;
};
struct ArchRanges : BaseArchRanges
{
using ArchArgsT = ArchArgs;
// Bels
using AllBelsRangeT = BelRange;
using TileBelsRangeT = BelRange;
using BelPinsRangeT = std::vector<IdString>;
// Wires
using AllWiresRangeT = WireRange;
using DownhillPipRangeT = PipRange;
using UphillPipRangeT = PipRange;
using WireBelPinRangeT = BelPinRange;
// Pips
using AllPipsRangeT = AllPipRange;
};
struct Arch : BaseArch<ArchRanges>
{
bool fast_part;
const ChipInfoPOD *chip_info;
const PackageInfoPOD *package_info;
mutable std::unordered_map<IdStringList, int> bel_by_name;
mutable std::unordered_map<IdStringList, int> wire_by_name;
mutable std::unordered_map<IdStringList, int> pip_by_name;
mutable std::unordered_map<Loc, int> bel_by_loc;
std::vector<bool> bel_carry;
std::vector<CellInfo *> bel_to_cell;
std::vector<NetInfo *> wire_to_net;
std::vector<NetInfo *> pip_to_net;
std::vector<WireId> switches_locked;
// fast access to X and Y IdStrings for building object names
std::vector<IdString> x_ids, y_ids;
// inverse of the above for name->object mapping
std::unordered_map<IdString, int> id_to_x, id_to_y;
ArchArgs args;
Arch(ArchArgs args);
static bool is_available(ArchArgs::ArchArgsTypes chip);
static std::vector<std::string> get_supported_packages(ArchArgs::ArchArgsTypes chip);
std::string getChipName() const override;
ArchArgs archArgs() const override { return args; }
IdString archArgsToId(ArchArgs args) const override;
// -------------------------------------------------
int getGridDimX() const override { return chip_info->width; }
int getGridDimY() const override { return chip_info->height; }
int getTileBelDimZ(int, int) const override { return 8; }
int getTilePipDimZ(int, int) const override { return 1; }
char getNameDelimiter() const override { return '/'; }
// -------------------------------------------------
BelId getBelByName(IdStringList name) const override;
IdStringList getBelName(BelId bel) const override
{
NPNR_ASSERT(bel != BelId());
auto &data = chip_info->bel_data[bel.index];
std::array<IdString, 3> ids{x_ids.at(data.x), y_ids.at(data.y), id(data.name.get())};
return IdStringList(ids);
}
void bindBel(BelId bel, CellInfo *cell, PlaceStrength strength) override
{
NPNR_ASSERT(bel != BelId());
NPNR_ASSERT(bel_to_cell[bel.index] == nullptr);
bel_to_cell[bel.index] = cell;
bel_carry[bel.index] = (cell->type == id_ICESTORM_LC && cell->lcInfo.carryEnable);
cell->bel = bel;
cell->belStrength = strength;
refreshUiBel(bel);
}
void unbindBel(BelId bel) override
{
NPNR_ASSERT(bel != BelId());
NPNR_ASSERT(bel_to_cell[bel.index] != nullptr);
bel_to_cell[bel.index]->bel = BelId();
bel_to_cell[bel.index]->belStrength = STRENGTH_NONE;
bel_to_cell[bel.index] = nullptr;
bel_carry[bel.index] = false;
refreshUiBel(bel);
}
bool checkBelAvail(BelId bel) const override
{
NPNR_ASSERT(bel != BelId());
return bel_to_cell[bel.index] == nullptr;
}
CellInfo *getBoundBelCell(BelId bel) const override
{
NPNR_ASSERT(bel != BelId());
return bel_to_cell[bel.index];
}
CellInfo *getConflictingBelCell(BelId bel) const override
{
NPNR_ASSERT(bel != BelId());
return bel_to_cell[bel.index];
}
BelRange getBels() const override
{
BelRange range;
range.b.cursor = 0;
range.e.cursor = chip_info->bel_data.size();
return range;
}
Loc getBelLocation(BelId bel) const override
{
NPNR_ASSERT(bel != BelId());
Loc loc;
loc.x = chip_info->bel_data[bel.index].x;
loc.y = chip_info->bel_data[bel.index].y;
loc.z = chip_info->bel_data[bel.index].z;
return loc;
}
BelId getBelByLocation(Loc loc) const override;
BelRange getBelsByTile(int x, int y) const override;
bool getBelGlobalBuf(BelId bel) const override { return chip_info->bel_data[bel.index].type == ID_SB_GB; }
IdString getBelType(BelId bel) const override
{
NPNR_ASSERT(bel != BelId());
return IdString(chip_info->bel_data[bel.index].type);
}
std::vector<std::pair<IdString, std::string>> getBelAttrs(BelId bel) const override;
WireId getBelPinWire(BelId bel, IdString pin) const override;
PortType getBelPinType(BelId bel, IdString pin) const override;
std::vector<IdString> getBelPins(BelId bel) const override;
bool is_bel_locked(BelId bel) const;
// -------------------------------------------------
WireId getWireByName(IdStringList name) const override;
IdStringList getWireName(WireId wire) const override
{
NPNR_ASSERT(wire != WireId());
auto &data = chip_info->wire_data[wire.index];
std::array<IdString, 3> ids{x_ids.at(data.name_x), y_ids.at(data.name_y), id(data.name.get())};
return IdStringList(ids);
}
IdString getWireType(WireId wire) const override;
std::vector<std::pair<IdString, std::string>> getWireAttrs(WireId wire) const override;
void bindWire(WireId wire, NetInfo *net, PlaceStrength strength) override
{
NPNR_ASSERT(wire != WireId());
NPNR_ASSERT(wire_to_net[wire.index] == nullptr);
wire_to_net[wire.index] = net;
net->wires[wire].pip = PipId();
net->wires[wire].strength = strength;
refreshUiWire(wire);
}
void unbindWire(WireId wire) override
{
NPNR_ASSERT(wire != WireId());
NPNR_ASSERT(wire_to_net[wire.index] != nullptr);
auto &net_wires = wire_to_net[wire.index]->wires;
auto it = net_wires.find(wire);
NPNR_ASSERT(it != net_wires.end());
auto pip = it->second.pip;
if (pip != PipId()) {
pip_to_net[pip.index] = nullptr;
switches_locked[chip_info->pip_data[pip.index].switch_index] = WireId();
}
net_wires.erase(it);
wire_to_net[wire.index] = nullptr;
refreshUiWire(wire);
}
bool checkWireAvail(WireId wire) const override
{
NPNR_ASSERT(wire != WireId());
return wire_to_net[wire.index] == nullptr;
}
NetInfo *getBoundWireNet(WireId wire) const override
{
NPNR_ASSERT(wire != WireId());
return wire_to_net[wire.index];
}
DelayInfo getWireDelay(WireId wire) const override
{
DelayInfo delay;
NPNR_ASSERT(wire != WireId());
if (fast_part)
delay.delay = chip_info->wire_data[wire.index].fast_delay;
else
delay.delay = chip_info->wire_data[wire.index].slow_delay;
return delay;
}
BelPinRange getWireBelPins(WireId wire) const override
{
BelPinRange range;
NPNR_ASSERT(wire != WireId());
range.b.ptr = chip_info->wire_data[wire.index].bel_pins.get();
range.e.ptr = range.b.ptr + chip_info->wire_data[wire.index].bel_pins.size();
return range;
}
WireRange getWires() const override
{
WireRange range;
range.b.cursor = 0;
range.e.cursor = chip_info->wire_data.size();
return range;
}
// -------------------------------------------------
PipId getPipByName(IdStringList name) const override;
void bindPip(PipId pip, NetInfo *net, PlaceStrength strength) override
{
NPNR_ASSERT(pip != PipId());
NPNR_ASSERT(pip_to_net[pip.index] == nullptr);
NPNR_ASSERT(switches_locked[chip_info->pip_data[pip.index].switch_index] == WireId());
WireId dst;
dst.index = chip_info->pip_data[pip.index].dst;
NPNR_ASSERT(wire_to_net[dst.index] == nullptr);
pip_to_net[pip.index] = net;
switches_locked[chip_info->pip_data[pip.index].switch_index] = dst;
wire_to_net[dst.index] = net;
net->wires[dst].pip = pip;
net->wires[dst].strength = strength;
refreshUiPip(pip);
refreshUiWire(dst);
}
void unbindPip(PipId pip) override
{
NPNR_ASSERT(pip != PipId());
NPNR_ASSERT(pip_to_net[pip.index] != nullptr);
NPNR_ASSERT(switches_locked[chip_info->pip_data[pip.index].switch_index] != WireId());
WireId dst;
dst.index = chip_info->pip_data[pip.index].dst;
NPNR_ASSERT(wire_to_net[dst.index] != nullptr);
wire_to_net[dst.index] = nullptr;
pip_to_net[pip.index]->wires.erase(dst);
pip_to_net[pip.index] = nullptr;
switches_locked[chip_info->pip_data[pip.index].switch_index] = WireId();
refreshUiPip(pip);
refreshUiWire(dst);
}
bool ice40_pip_hard_unavail(PipId pip) const
{
NPNR_ASSERT(pip != PipId());
auto &pi = chip_info->pip_data[pip.index];
auto &si = chip_info->bits_info->switches[pi.switch_index];
if (pi.flags & PipInfoPOD::FLAG_ROUTETHRU) {
NPNR_ASSERT(si.bel >= 0);
if (bel_to_cell[si.bel] != nullptr)
return true;
}
if (pi.flags & PipInfoPOD::FLAG_NOCARRY) {
NPNR_ASSERT(si.bel >= 0);
if (bel_carry[si.bel])
return true;
}
return false;
}
bool checkPipAvail(PipId pip) const override
{
if (ice40_pip_hard_unavail(pip))
return false;
auto &pi = chip_info->pip_data[pip.index];
return switches_locked[pi.switch_index] == WireId();
}
NetInfo *getBoundPipNet(PipId pip) const override
{
NPNR_ASSERT(pip != PipId());
return pip_to_net[pip.index];
}
WireId getConflictingPipWire(PipId pip) const override
{
if (ice40_pip_hard_unavail(pip))
return WireId();
return switches_locked[chip_info->pip_data[pip.index].switch_index];
}
NetInfo *getConflictingPipNet(PipId pip) const override
{
if (ice40_pip_hard_unavail(pip))
return nullptr;
WireId wire = switches_locked[chip_info->pip_data[pip.index].switch_index];
return wire == WireId() ? nullptr : wire_to_net[wire.index];
}
AllPipRange getPips() const override
{
AllPipRange range;
range.b.cursor = 0;
range.e.cursor = chip_info->pip_data.size();
return range;
}
Loc getPipLocation(PipId pip) const override
{
Loc loc;
loc.x = chip_info->pip_data[pip.index].x;
loc.y = chip_info->pip_data[pip.index].y;
loc.z = 0;
return loc;
}
IdStringList getPipName(PipId pip) const override;
IdString getPipType(PipId pip) const override;
std::vector<std::pair<IdString, std::string>> getPipAttrs(PipId pip) const override;
WireId getPipSrcWire(PipId pip) const override
{
WireId wire;
NPNR_ASSERT(pip != PipId());
wire.index = chip_info->pip_data[pip.index].src;
return wire;
}
WireId getPipDstWire(PipId pip) const override
{
WireId wire;
NPNR_ASSERT(pip != PipId());
wire.index = chip_info->pip_data[pip.index].dst;
return wire;
}
DelayInfo getPipDelay(PipId pip) const override
{
DelayInfo delay;
NPNR_ASSERT(pip != PipId());
if (fast_part)
delay.delay = chip_info->pip_data[pip.index].fast_delay;
else
delay.delay = chip_info->pip_data[pip.index].slow_delay;
return delay;
}
PipRange getPipsDownhill(WireId wire) const override
{
PipRange range;
NPNR_ASSERT(wire != WireId());
range.b.cursor = chip_info->wire_data[wire.index].pips_downhill.get();
range.e.cursor = range.b.cursor + chip_info->wire_data[wire.index].pips_downhill.size();
return range;
}
PipRange getPipsUphill(WireId wire) const override
{
PipRange range;
NPNR_ASSERT(wire != WireId());
range.b.cursor = chip_info->wire_data[wire.index].pips_uphill.get();
range.e.cursor = range.b.cursor + chip_info->wire_data[wire.index].pips_uphill.size();
return range;
}
BelId get_package_pin_bel(const std::string &pin) const;
std::string get_bel_package_pin(BelId bel) const;
// -------------------------------------------------
GroupId getGroupByName(IdStringList name) const override;
IdStringList getGroupName(GroupId group) const override;
std::vector<GroupId> getGroups() const override;
std::vector<BelId> getGroupBels(GroupId group) const override;
std::vector<WireId> getGroupWires(GroupId group) const override;
std::vector<PipId> getGroupPips(GroupId group) const override;
std::vector<GroupId> getGroupGroups(GroupId group) const override;
// -------------------------------------------------
delay_t estimateDelay(WireId src, WireId dst) const override;
delay_t predictDelay(const NetInfo *net_info, const PortRef &sink) const override;
delay_t getDelayEpsilon() const override { return 20; }
delay_t getRipupDelayPenalty() const override { return 200; }
float getDelayNS(delay_t v) const override { return v * 0.001; }
DelayInfo getDelayFromNS(float ns) const override
{
DelayInfo del;
del.delay = delay_t(ns * 1000);
return del;
}
uint32_t getDelayChecksum(delay_t v) const override { return v; }
bool getBudgetOverride(const NetInfo *net_info, const PortRef &sink, delay_t &budget) const override;
ArcBounds getRouteBoundingBox(WireId src, WireId dst) const override;
// -------------------------------------------------
bool pack() override;
bool place() override;
bool route() override;
// -------------------------------------------------
std::vector<GraphicElement> getDecalGraphics(DecalId decal) const override;
DecalXY getBelDecal(BelId bel) const override;
DecalXY getWireDecal(WireId wire) const override;
DecalXY getPipDecal(PipId pip) const override;
DecalXY getGroupDecal(GroupId group) const override;
// -------------------------------------------------
// Get the delay through a cell from one port to another, returning false
// if no path exists. This only considers combinational delays, as required by the Arch API
bool getCellDelay(const CellInfo *cell, IdString fromPort, IdString toPort, DelayInfo &delay) const override;
// get_cell_delay_internal is similar to the above, but without false path checks and including clock to out delays
// for internal arch use only
bool get_cell_delay_internal(const CellInfo *cell, IdString fromPort, IdString toPort, DelayInfo &delay) const;
// Get the port class, also setting clockInfoCount to the number of TimingClockingInfos associated with a port
TimingPortClass getPortTimingClass(const CellInfo *cell, IdString port, int &clockInfoCount) const override;
// Get the TimingClockingInfo of a port
TimingClockingInfo getPortClockingInfo(const CellInfo *cell, IdString port, int index) const override;
// Return true if a port is a net
bool is_global_net(const NetInfo *net) const;
// -------------------------------------------------
// Perform placement validity checks, returning false on failure (all
// implemented in arch_place.cc)
// Return true whether all Bels at a given location are valid
bool isBelLocationValid(BelId bel) const override;
// Helper function for above
bool logic_cells_compatible(const CellInfo **it, const size_t size) const;
// -------------------------------------------------
// Assign architecture-specific arguments to nets and cells, which must be
// called between packing or further
// netlist modifications, and validity checks
void assignArchInfo() override;
void assignCellInfo(CellInfo *cell);
// -------------------------------------------------
BelPin get_iob_sharing_pll_pin(BelId pll, IdString pll_pin) const
{
auto wire = getBelPinWire(pll, pll_pin);
for (auto src_bel : getWireBelPins(wire)) {
if (getBelType(src_bel.bel) == id_SB_IO && src_bel.pin == id_D_IN_0) {
return src_bel;
}
}
NPNR_ASSERT_FALSE("Expected PLL pin to share an output with an SB_IO D_IN_{0,1}");
}
int get_driven_glb_netwk(BelId bel) const
{
NPNR_ASSERT(getBelType(bel) == id_SB_GB);
IdString glb_net = getWireName(getBelPinWire(bel, id_GLOBAL_BUFFER_OUTPUT))[2];
return std::stoi(std::string("") + glb_net.str(this).back());
}
static const std::string defaultPlacer;
static const std::vector<std::string> availablePlacers;
static const std::string defaultRouter;
static const std::vector<std::string> availableRouters;
};
void ice40DelayFuzzerMain(Context *ctx);
NEXTPNR_NAMESPACE_END
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