/*
* nextpnr -- Next Generation Place and Route
*
* Copyright (C) 2021 Lofty <dan.ravensloft@gmail.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 MISTRAL_ARCHDEFS_H
#define MISTRAL_ARCHDEFS_H
#include "base_clusterinfo.h"
#include "cyclonev.h"
#include "hashlib.h"
#include "idstring.h"
#include "nextpnr_assertions.h"
#include "nextpnr_namespaces.h"
#include <limits>
NEXTPNR_NAMESPACE_BEGIN
using mistral::CycloneV;
typedef int delay_t;
// https://bugreports.qt.io/browse/QTBUG-80789
#ifndef Q_MOC_RUN
enum ConstIds
{
ID_NONE
#define X(t) , ID_##t
#include "constids.inc"
#undef X
};
#define X(t) static constexpr auto id_##t = IdString(ID_##t);
#include "constids.inc"
#undef X
#endif
struct DelayInfo
{
delay_t delay = 0;
delay_t minRaiseDelay() const { return delay; }
delay_t maxRaiseDelay() const { return delay; }
delay_t minFallDelay() const { return delay; }
delay_t maxFallDelay() const { return delay; }
delay_t minDelay() const { return delay; }
delay_t maxDelay() const { return delay; }
DelayInfo operator+(const DelayInfo &other) const
{
DelayInfo ret;
ret.delay = this->delay + other.delay;
return ret;
}
};
struct BelId
{
BelId() = default;
BelId(CycloneV::pos_t _pos, uint16_t _z) : pos{_pos}, z{_z} {}
// pos_t is used for X/Y, nextpnr-cyclonev uses its own Z coordinate system.
CycloneV::pos_t pos = 0;
uint16_t z = 0;
bool operator==(const BelId &other) const { return pos == other.pos && z == other.z; }
bool operator!=(const BelId &other) const { return pos != other.pos || z != other.z; }
bool operator<(const BelId &other) const { return pos < other.pos || (pos == other.pos && z < other.z); }
unsigned int hash() const { return mkhash(pos, z); }
};
static constexpr auto invalid_rnode = std::numeric_limits<CycloneV::rnode_t>::max();
struct WireId
{
WireId() = default;
explicit WireId(CycloneV::rnode_t node) : node(node){};
CycloneV::rnode_t node = invalid_rnode;
// Wires created by nextpnr have rnode type >= 128
bool is_nextpnr_created() const
{
NPNR_ASSERT(node != invalid_rnode);
return unsigned(CycloneV::rn2t(node)) >= 128;
}
bool operator==(const WireId &other) const { return node == other.node; }
bool operator!=(const WireId &other) const { return node != other.node; }
bool operator<(const WireId &other) const { return node < other.node; }
unsigned int hash() const { return unsigned(node); }
};
struct PipId
{
PipId() = default;
PipId(CycloneV::rnode_t src, CycloneV::rnode_t dst) : src(src), dst(dst){};
CycloneV::rnode_t src = invalid_rnode, dst = invalid_rnode;
bool operator==(const PipId &other) const { return src == other.src && dst == other.dst; }
bool operator!=(const PipId &other) const { return src != other.src || dst != other.dst; }
bool operator<(const PipId &other) const { return dst < other.dst || (dst == other.dst && src < other.src); }
unsigned int hash() const { return mkhash(src, dst); }
};
typedef IdString DecalId;
typedef IdString GroupId;
typedef IdString BelBucketId;
typedef IdString ClusterId;
struct ArchNetInfo
{
bool is_global = false;
};
enum CellPinState
{
PIN_SIG = 0,
PIN_0 = 1,
PIN_1 = 2,
PIN_INV = 3,
};
struct ArchPinInfo
{
// Used to represent signals that are either tied to implicit constants (rather than explicitly routed constants);
// or are inverted
CellPinState state = PIN_SIG;
// The physical bel pins that this logical pin maps to
std::vector<IdString> bel_pins;
};
struct NetInfo;
// Structures for representing how FF control sets are stored and validity-checked
struct ControlSig
{
const NetInfo *net;
bool inverted;
bool connected() const { return net != nullptr; }
bool operator==(const ControlSig &other) const { return net == other.net && inverted == other.inverted; }
bool operator!=(const ControlSig &other) const { return net == other.net && inverted == other.inverted; }
};
struct FFControlSet
{
ControlSig clk, ena, aclr, sclr, sload;
bool operator==(const FFControlSet &other) const
{
return clk == other.clk && ena == other.ena && aclr == other.aclr && sclr == other.sclr && sload == other.sload;
}
bool operator!=(const FFControlSet &other) const { return !(*this == other); }
};
struct ArchCellInfo : BaseClusterInfo
{
union
{
struct
{
// Store the nets here for fast validity checking (avoids too many map lookups in a hot path)
std::array<const NetInfo *, 7> lut_in;
const NetInfo *comb_out;
int lut_input_count;
int used_lut_input_count; // excluding those null/constant
int lut_bits_count;
// for the LAB routeability check (see the detailed description in lab.cc); usually the same signal feeding
// multiple ALMs in a LAB is counted multiple times, due to not knowing which routing resources it will need
// in each case. But carry chains where we know how things will pack are allowed to share across ALMs as a
// special case, primarily to support adders/subtractors with a 'B invert' control signal shared across all
// ALMs.
int chain_shared_input_count;
bool is_carry, is_shared, is_extended;
bool carry_start, carry_end;
// MLABs with compatible write ports have this set to the same non-negative integer. -1 means this isn't a
// MLAB
int mlab_group;
ControlSig wclk, we;
} combInfo;
struct
{
FFControlSet ctrlset;
const NetInfo *sdata, *datain;
} ffInfo;
};
dict<IdString, ArchPinInfo> pin_data;
CellPinState get_pin_state(IdString pin) const;
};
NEXTPNR_NAMESPACE_END
#endif