yosys/kernel/celltypes.h

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/*
* yosys -- Yosys Open SYnthesis Suite
*
* Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>
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*
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* 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.
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*
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* 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 CELLTYPES_H
#define CELLTYPES_H
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#include <kernel/yosys.h>
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YOSYS_NAMESPACE_BEGIN
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struct CellType
{
RTLIL::IdString type;
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pool<RTLIL::IdString> inputs, outputs;
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bool is_evaluable;
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};
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struct CellTypes
{
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dict<RTLIL::IdString, CellType> cell_types;
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CellTypes()
{
}
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CellTypes(RTLIL::Design *design)
{
setup(design);
}
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void setup(RTLIL::Design *design = NULL)
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{
if (design)
setup_design(design);
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setup_internals();
setup_internals_mem();
setup_stdcells();
setup_stdcells_mem();
}
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void setup_type(RTLIL::IdString type, const pool<RTLIL::IdString> &inputs, const pool<RTLIL::IdString> &outputs, bool is_evaluable = false)
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{
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CellType ct = {type, inputs, outputs, is_evaluable};
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cell_types[ct.type] = ct;
}
void setup_module(RTLIL::Module *module)
{
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pool<RTLIL::IdString> inputs, outputs;
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for (RTLIL::IdString wire_name : module->ports) {
RTLIL::Wire *wire = module->wire(wire_name);
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if (wire->port_input)
inputs.insert(wire->name);
if (wire->port_output)
outputs.insert(wire->name);
}
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setup_type(module->name, inputs, outputs);
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}
void setup_design(RTLIL::Design *design)
{
for (auto module : design->modules())
setup_module(module);
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}
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void setup_internals()
{
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std::vector<RTLIL::IdString> unary_ops = {
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"$not", "$pos", "$neg",
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"$reduce_and", "$reduce_or", "$reduce_xor", "$reduce_xnor", "$reduce_bool",
"$logic_not", "$slice", "$lut"
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};
std::vector<RTLIL::IdString> binary_ops = {
"$and", "$or", "$xor", "$xnor",
"$shl", "$shr", "$sshl", "$sshr", "$shift", "$shiftx",
"$lt", "$le", "$eq", "$ne", "$eqx", "$nex", "$ge", "$gt",
"$add", "$sub", "$mul", "$div", "$mod", "$pow",
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"$logic_and", "$logic_or", "$concat", "$macc"
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};
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IdString A = "\\A", B = "\\B", S = "\\S", Y = "\\Y";
IdString P = "\\P", G = "\\G", C = "\\C", X = "\\X";
IdString BI = "\\BI", CI = "\\CI", CO = "\\CO", EN = "\\EN";
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for (auto type : unary_ops)
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setup_type(type, {A}, {Y}, true);
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for (auto type : binary_ops)
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setup_type(type, {A, B}, {Y}, true);
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for (auto type : std::vector<RTLIL::IdString>({"$mux", "$pmux"}))
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setup_type(type, {A, B, S}, {Y}, true);
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setup_type("$lcu", {P, G, CI}, {CO}, true);
setup_type("$alu", {A, B, CI, BI}, {X, Y, CO}, true);
setup_type("$fa", {A, B, C}, {X, Y}, true);
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setup_type("$tribuf", {A, EN}, {Y}, true);
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setup_type("$assert", {A, EN}, pool<RTLIL::IdString>(), true);
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setup_type("$assume", {A, EN}, pool<RTLIL::IdString>(), true);
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setup_type("$equiv", {A, B}, {Y}, true);
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}
void setup_internals_mem()
{
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IdString SET = "\\SET", CLR = "\\CLR", CLK = "\\CLK", ARST = "\\ARST", EN = "\\EN";
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IdString Q = "\\Q", D = "\\D", ADDR = "\\ADDR", DATA = "\\DATA", RD_EN = "\\RD_EN";
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IdString RD_CLK = "\\RD_CLK", RD_ADDR = "\\RD_ADDR", WR_CLK = "\\WR_CLK", WR_EN = "\\WR_EN";
IdString WR_ADDR = "\\WR_ADDR", WR_DATA = "\\WR_DATA", RD_DATA = "\\RD_DATA";
IdString CTRL_IN = "\\CTRL_IN", CTRL_OUT = "\\CTRL_OUT";
setup_type("$sr", {SET, CLR}, {Q});
setup_type("$dff", {CLK, D}, {Q});
setup_type("$dffe", {CLK, EN, D}, {Q});
setup_type("$dffsr", {CLK, SET, CLR, D}, {Q});
setup_type("$adff", {CLK, ARST, D}, {Q});
setup_type("$dlatch", {EN, D}, {Q});
setup_type("$dlatchsr", {EN, SET, CLR, D}, {Q});
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setup_type("$memrd", {CLK, EN, ADDR}, {DATA});
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setup_type("$memwr", {CLK, EN, ADDR, DATA}, pool<RTLIL::IdString>());
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setup_type("$meminit", {ADDR, DATA}, pool<RTLIL::IdString>());
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setup_type("$mem", {RD_CLK, RD_EN, RD_ADDR, WR_CLK, WR_EN, WR_ADDR, WR_DATA}, {RD_DATA});
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setup_type("$fsm", {CLK, ARST, CTRL_IN}, {CTRL_OUT});
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}
void setup_stdcells()
{
IdString A = "\\A", B = "\\B", C = "\\C", D = "\\D";
IdString E = "\\E", F = "\\F", G = "\\G", H = "\\H";
IdString I = "\\I", J = "\\J", K = "\\K", L = "\\L";
IdString M = "\\I", N = "\\N", O = "\\O", P = "\\P";
IdString S = "\\S", T = "\\T", U = "\\U", V = "\\V";
IdString Y = "\\Y";
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setup_type("$_BUF_", {A}, {Y}, true);
setup_type("$_NOT_", {A}, {Y}, true);
setup_type("$_AND_", {A, B}, {Y}, true);
setup_type("$_NAND_", {A, B}, {Y}, true);
setup_type("$_OR_", {A, B}, {Y}, true);
setup_type("$_NOR_", {A, B}, {Y}, true);
setup_type("$_XOR_", {A, B}, {Y}, true);
setup_type("$_XNOR_", {A, B}, {Y}, true);
setup_type("$_MUX_", {A, B, S}, {Y}, true);
setup_type("$_MUX4_", {A, B, C, D, S, T}, {Y}, true);
setup_type("$_MUX8_", {A, B, C, D, E, F, G, H, S, T, U}, {Y}, true);
setup_type("$_MUX16_", {A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, S, T, U, V}, {Y}, true);
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setup_type("$_AOI3_", {A, B, C}, {Y}, true);
setup_type("$_OAI3_", {A, B, C}, {Y}, true);
setup_type("$_AOI4_", {A, B, C, D}, {Y}, true);
setup_type("$_OAI4_", {A, B, C, D}, {Y}, true);
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setup_type("$_TBUF_", {A, E}, {Y}, true);
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}
void setup_stdcells_mem()
{
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IdString S = "\\S", R = "\\R", C = "\\C";
IdString D = "\\D", Q = "\\Q", E = "\\E";
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std::vector<char> list_np = {'N', 'P'}, list_01 = {'0', '1'};
for (auto c1 : list_np)
for (auto c2 : list_np)
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setup_type(stringf("$_SR_%c%c_", c1, c2), {S, R}, {Q});
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for (auto c1 : list_np)
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setup_type(stringf("$_DFF_%c_", c1), {C, D}, {Q});
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for (auto c1 : list_np)
for (auto c2 : list_np)
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setup_type(stringf("$_DFFE_%c%c_", c1, c2), {C, D, E}, {Q});
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for (auto c1 : list_np)
for (auto c2 : list_np)
for (auto c3 : list_01)
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setup_type(stringf("$_DFF_%c%c%c_", c1, c2, c3), {C, R, D}, {Q});
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for (auto c1 : list_np)
for (auto c2 : list_np)
for (auto c3 : list_np)
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setup_type(stringf("$_DFFSR_%c%c%c_", c1, c2, c3), {C, S, R, D}, {Q});
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for (auto c1 : list_np)
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setup_type(stringf("$_DLATCH_%c_", c1), {E, D}, {Q});
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for (auto c1 : list_np)
for (auto c2 : list_np)
for (auto c3 : list_np)
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setup_type(stringf("$_DLATCHSR_%c%c%c_", c1, c2, c3), {E, S, R, D}, {Q});
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}
void clear()
{
cell_types.clear();
}
bool cell_known(RTLIL::IdString type)
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{
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return cell_types.count(type) != 0;
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}
bool cell_output(RTLIL::IdString type, RTLIL::IdString port)
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{
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auto it = cell_types.find(type);
return it != cell_types.end() && it->second.outputs.count(port) != 0;
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}
bool cell_input(RTLIL::IdString type, RTLIL::IdString port)
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{
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auto it = cell_types.find(type);
return it != cell_types.end() && it->second.inputs.count(port) != 0;
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}
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bool cell_evaluable(RTLIL::IdString type)
{
auto it = cell_types.find(type);
return it != cell_types.end() && it->second.is_evaluable;
}
static RTLIL::Const eval_not(RTLIL::Const v)
{
for (auto &bit : v.bits)
if (bit == RTLIL::S0) bit = RTLIL::S1;
else if (bit == RTLIL::S1) bit = RTLIL::S0;
return v;
}
static RTLIL::Const eval(RTLIL::IdString type, const RTLIL::Const &arg1, const RTLIL::Const &arg2, bool signed1, bool signed2, int result_len)
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{
if (type == "$sshr" && !signed1)
type = "$shr";
if (type == "$sshl" && !signed1)
type = "$shl";
if (type != "$sshr" && type != "$sshl" && type != "$shr" && type != "$shl" && type != "$shift" && type != "$shiftx" &&
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type != "$pos" && type != "$neg" && type != "$not") {
if (!signed1 || !signed2)
signed1 = false, signed2 = false;
}
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#define HANDLE_CELL_TYPE(_t) if (type == "$" #_t) return const_ ## _t(arg1, arg2, signed1, signed2, result_len);
HANDLE_CELL_TYPE(not)
HANDLE_CELL_TYPE(and)
HANDLE_CELL_TYPE(or)
HANDLE_CELL_TYPE(xor)
HANDLE_CELL_TYPE(xnor)
HANDLE_CELL_TYPE(reduce_and)
HANDLE_CELL_TYPE(reduce_or)
HANDLE_CELL_TYPE(reduce_xor)
HANDLE_CELL_TYPE(reduce_xnor)
HANDLE_CELL_TYPE(reduce_bool)
HANDLE_CELL_TYPE(logic_not)
HANDLE_CELL_TYPE(logic_and)
HANDLE_CELL_TYPE(logic_or)
HANDLE_CELL_TYPE(shl)
HANDLE_CELL_TYPE(shr)
HANDLE_CELL_TYPE(sshl)
HANDLE_CELL_TYPE(sshr)
HANDLE_CELL_TYPE(shift)
HANDLE_CELL_TYPE(shiftx)
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HANDLE_CELL_TYPE(lt)
HANDLE_CELL_TYPE(le)
HANDLE_CELL_TYPE(eq)
HANDLE_CELL_TYPE(ne)
HANDLE_CELL_TYPE(eqx)
HANDLE_CELL_TYPE(nex)
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HANDLE_CELL_TYPE(ge)
HANDLE_CELL_TYPE(gt)
HANDLE_CELL_TYPE(add)
HANDLE_CELL_TYPE(sub)
HANDLE_CELL_TYPE(mul)
HANDLE_CELL_TYPE(div)
HANDLE_CELL_TYPE(mod)
HANDLE_CELL_TYPE(pow)
HANDLE_CELL_TYPE(pos)
HANDLE_CELL_TYPE(neg)
#undef HANDLE_CELL_TYPE
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if (type == "$_BUF_")
return arg1;
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if (type == "$_NOT_")
return eval_not(arg1);
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if (type == "$_AND_")
return const_and(arg1, arg2, false, false, 1);
if (type == "$_NAND_")
return eval_not(const_and(arg1, arg2, false, false, 1));
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if (type == "$_OR_")
return const_or(arg1, arg2, false, false, 1);
if (type == "$_NOR_")
return eval_not(const_and(arg1, arg2, false, false, 1));
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if (type == "$_XOR_")
return const_xor(arg1, arg2, false, false, 1);
if (type == "$_XNOR_")
return const_xnor(arg1, arg2, false, false, 1);
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log_abort();
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}
static RTLIL::Const eval(RTLIL::Cell *cell, const RTLIL::Const &arg1, const RTLIL::Const &arg2)
{
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if (cell->type == "$slice") {
RTLIL::Const ret;
int width = cell->parameters.at("\\Y_WIDTH").as_int();
int offset = cell->parameters.at("\\OFFSET").as_int();
ret.bits.insert(ret.bits.end(), arg1.bits.begin()+offset, arg1.bits.begin()+offset+width);
return ret;
}
if (cell->type == "$concat") {
RTLIL::Const ret = arg1;
ret.bits.insert(ret.bits.end(), arg2.bits.begin(), arg2.bits.end());
return ret;
}
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if (cell->type == "$lut")
{
int width = cell->parameters.at("\\WIDTH").as_int();
std::vector<RTLIL::State> t = cell->parameters.at("\\LUT").bits;
while (GetSize(t) < (1 << width))
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t.push_back(RTLIL::S0);
t.resize(1 << width);
for (int i = width-1; i >= 0; i--) {
RTLIL::State sel = arg1.bits.at(i);
std::vector<RTLIL::State> new_t;
if (sel == RTLIL::S0)
new_t = std::vector<RTLIL::State>(t.begin(), t.begin() + GetSize(t)/2);
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else if (sel == RTLIL::S1)
new_t = std::vector<RTLIL::State>(t.begin() + GetSize(t)/2, t.end());
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else
for (int j = 0; j < GetSize(t)/2; j++)
new_t.push_back(t[j] == t[j + GetSize(t)/2] ? t[j] : RTLIL::Sx);
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t.swap(new_t);
}
log_assert(GetSize(t) == 1);
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return t;
}
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bool signed_a = cell->parameters.count("\\A_SIGNED") > 0 && cell->parameters["\\A_SIGNED"].as_bool();
bool signed_b = cell->parameters.count("\\B_SIGNED") > 0 && cell->parameters["\\B_SIGNED"].as_bool();
int result_len = cell->parameters.count("\\Y_WIDTH") > 0 ? cell->parameters["\\Y_WIDTH"].as_int() : -1;
return eval(cell->type, arg1, arg2, signed_a, signed_b, result_len);
}
static RTLIL::Const eval(RTLIL::Cell *cell, const RTLIL::Const &arg1, const RTLIL::Const &arg2, const RTLIL::Const &arg3)
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{
if (cell->type.in("$mux", "$pmux", "$_MUX_")) {
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RTLIL::Const ret = arg1;
for (size_t i = 0; i < arg3.bits.size(); i++)
if (arg3.bits[i] == RTLIL::State::S1) {
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std::vector<RTLIL::State> bits(arg2.bits.begin() + i*arg1.bits.size(), arg2.bits.begin() + (i+1)*arg1.bits.size());
ret = RTLIL::Const(bits);
}
return ret;
}
if (cell->type == "$_AOI3_")
return eval_not(const_or(const_and(arg1, arg2, false, false, 1), arg3, false, false, 1));
if (cell->type == "$_OAI3_")
return eval_not(const_and(const_or(arg1, arg2, false, false, 1), arg3, false, false, 1));
log_assert(arg3.bits.size() == 0);
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return eval(cell, arg1, arg2);
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}
static RTLIL::Const eval(RTLIL::Cell *cell, const RTLIL::Const &arg1, const RTLIL::Const &arg2, const RTLIL::Const &arg3, const RTLIL::Const &arg4)
{
if (cell->type == "$_AOI4_")
return eval_not(const_or(const_and(arg1, arg2, false, false, 1), const_and(arg3, arg4, false, false, 1), false, false, 1));
if (cell->type == "$_OAI4_")
return eval_not(const_and(const_or(arg1, arg2, false, false, 1), const_and(arg3, arg4, false, false, 1), false, false, 1));
log_assert(arg4.bits.size() == 0);
return eval(cell, arg1, arg2, arg3);
}
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};
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// initialized by yosys_setup()
extern CellTypes yosys_celltypes;
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YOSYS_NAMESPACE_END
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#endif