mirror of https://github.com/YosysHQ/yosys.git
147 lines
5.5 KiB
Plaintext
147 lines
5.5 KiB
Plaintext
pattern shiftadd
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//
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// Transforms add/sub+shift pairs that result from expressions such as data[s*W +C +:W2]
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// specifically something like: out[W2-1:0] = data >> (s*W +C)
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// will be transformed into: out[W2-1:0] = (data >> C) >> (s*W)
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// this can then be optimized using peepopt_shiftmul_right.pmg
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//
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match shift
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select shift->type.in($shift, $shiftx, $shr)
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filter !port(shift, \B).empty()
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endmatch
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// the right shift amount
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state <SigSpec> shift_amount
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// log2 scale factor in interpreting of shift_amount
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// due to zero padding on the shift cell's B port
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state <int> log2scale
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// zeros at the MSB position make it unsigned
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state <bool> msb_zeros
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code shift_amount log2scale msb_zeros
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shift_amount = port(shift, \B);
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log2scale = 0;
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while (shift_amount[0] == State::S0) {
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shift_amount.remove(0);
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if (shift_amount.empty()) reject;
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log2scale++;
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}
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msb_zeros = 0;
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while (shift_amount.bits().back() == State::S0) {
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msb_zeros = true;
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shift_amount.remove(GetSize(shift_amount) - 1);
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if (shift_amount.empty()) reject;
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}
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endcode
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state <bool> var_signed
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state <SigSpec> var_signal
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// offset: signed constant value c in data[var+c +:W1] (constant shift-right amount)
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state <int> offset
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match add
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// either data[var+c +:W1] or data[var-c +:W1]
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select add->type.in($add, $sub)
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index <SigSpec> port(add, \Y) === shift_amount
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// one must be constant, the other is variable
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choice <IdString> constport {\A, \B}
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select !port(add, constport).empty()
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select port(add, constport).is_fully_const()
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define <IdString> varport (constport == \A ? \B : \A)
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// if a value of var is able to wrap the output, the transformation might give wrong results
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// an addition/substraction can at most flip one more bit than the largest operand (the carry bit)
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// as long as the output can show this bit, no wrap should occur (assuming all signed-ness make sense)
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select ( GetSize(port(add, \Y)) > max(GetSize(port(add, \A)), GetSize(port(add, \B))) )
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define <bool> varport_A (varport == \A)
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define <bool> is_sub add->type.in($sub)
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define <bool> constport_signed param(add, !varport_A ? \A_SIGNED : \B_SIGNED).as_bool()
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define <bool> varport_signed param(add, varport_A ? \A_SIGNED : \B_SIGNED).as_bool();
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define <bool> const_negative (constport_signed && (port(add, constport).bits().back() == State::S1))
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define <bool> offset_negative ((is_sub && varport_A) ^ const_negative)
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// checking some value boundaries as well:
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// data[...-c +:W1] is fine for any signed var (pad at LSB, all data still accessible)
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// unsigned shift may underflow (eg var-3 with var<3) -> cannot be converted
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// data[...+c +:W1] is only fine for +var(add) and var unsigned
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// (+c cuts lower C bits, making them inaccessible, a signed var could try to access them)
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// either its an add or the variable port is A (it must be positive)
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select (add->type.in($add) || varport == \A)
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// -> data[var+c +:W1] (with var signed) is illegal
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filter !(!offset_negative && varport_signed)
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// -> data >> (var-c) (with var unsigned) is illegal
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filter !(offset_negative && !varport_signed)
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// state-variables are assigned at the end only:
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// shift the log2scale offset in-front of add to get true value: (var+c)<<N -> (var<<N)+(c<<N)
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set offset ( (port(add, constport).as_int(constport_signed) << log2scale) * ( (is_sub && varport_A) ? -1 : 1 ) )
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set var_signed varport_signed
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set var_signal add->getPort(varport)
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endmatch
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code
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{
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// positive constant offset with a signed variable (index) cannot be handled
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// the above filter should get rid of this case but 'offset' is calculated differently
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// due to limitations of state-variables in pmgen
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// it should only differ if previous passes create invalid data
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log_assert(!(offset>0 && var_signed));
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SigSpec old_a = port(shift, \A); // data
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std::string location = shift->get_src_attribute();
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if(shiftadd_max_ratio>0 && offset<0 && -offset*shiftadd_max_ratio > old_a.size()) {
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log_warning("at %s: candiate for shiftadd optimization (shifting '%s' by '%s - %d' bits) "
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"was ignored to avoid high resource usage, see help peepopt\n",
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location.c_str(), log_signal(old_a), log_signal(var_signal), -offset);
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reject;
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}
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did_something = true;
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log("shiftadd pattern in %s: shift=%s, add/sub=%s, offset: %d\n", \
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log_id(module), log_id(shift), log_id(add), offset);
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SigSpec new_a;
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if(offset<0) {
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// data >> (...-c) transformed to {data, c'X} >> (...)
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SigSpec padding( (shift->type.in($shiftx) ? State::Sx : State::S0), -offset );
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new_a.append(padding);
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new_a.append(old_a);
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} else {
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// data >> (...+c) transformed to data[MAX:c] >> (...)
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if(offset < GetSize(old_a)) { // some signal bits left?
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new_a.append(old_a.extract_end(offset));
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} else {
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// warn user in case data is empty (no bits left)
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if (location.empty())
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location = shift->name.str();
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if(shift->type.in($shiftx))
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log_warning("at %s: result of indexed part-selection is always constant (selecting from '%s' with index '%s + %d')\n", \
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location.c_str(), log_signal(old_a), log_signal(var_signal), offset);
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else
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log_warning("at %s: result of shift operation is always constant (shifting '%s' by '%s + %d' bits)\n", \
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location.c_str(), log_signal(old_a), log_signal(var_signal), offset);
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}
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}
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SigSpec new_b = {var_signal, SigSpec(State::S0, log2scale)};
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if (msb_zeros || !var_signed)
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new_b.append(State::S0);
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shift->setPort(\A, new_a);
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shift->setParam(\A_WIDTH, GetSize(new_a));
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shift->setPort(\B, new_b);
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shift->setParam(\B_WIDTH, GetSize(new_b));
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blacklist(add);
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accept;
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}
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endcode
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