/* * Copyright (c) 2001 Stephen Williams (steve@icarus.com) * * This source code is free software; you can redistribute it * and/or modify it in source code form under the terms of the GNU * General Public License as published by the Free Software * Foundation; either version 2 of the License, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA */ #if !defined(WINNT) #ident "$Id: arith.cc,v 1.11 2001/07/13 00:38:57 steve Exp $" #endif # include "arith.h" # include "schedule.h" # include # include vvp_arith_::vvp_arith_(vvp_ipoint_t b, unsigned w) : base_(b), wid_(w) { } void vvp_arith_::output_x_(bool push) { for (unsigned idx = 0 ; idx < wid_ ; idx += 1) { vvp_ipoint_t ptr = ipoint_index(base_,idx); functor_t obj = functor_index(ptr); if (obj->oval == 2) continue; obj->oval = 2; if (push) functor_propagate(ptr); else schedule_functor(ptr, 0); } } vvp_arith_mult::vvp_arith_mult(vvp_ipoint_t b, unsigned w) : vvp_arith_(b, w) { } void vvp_arith_mult::set(vvp_ipoint_t i, functor_t f, bool push) { assert(wid_ <= 8*sizeof(unsigned long)); unsigned long a = 0, b = 0; for (unsigned idx = 0 ; idx < wid_ ; idx += 1) { vvp_ipoint_t ptr = ipoint_index(base_,idx); functor_t obj = functor_index(ptr); unsigned ival = obj->ival; if (ival & 0xaa) { output_x_(push); return; } if (ival & 0x01) a += 1 << idx; if (ival & 0x04) b += 1 << idx; } unsigned long sum = a * b; for (unsigned idx = 0 ; idx < wid_ ; idx += 1) { vvp_ipoint_t ptr = ipoint_index(base_,idx); functor_t obj = functor_index(ptr); unsigned oval = sum & 1; sum >>= 1; if (obj->oval == oval) continue; obj->oval = oval; if (push) functor_propagate(ptr); else schedule_functor(ptr, 0); } } vvp_arith_sum::vvp_arith_sum(vvp_ipoint_t b, unsigned w) : vvp_arith_(b, w) { sum_ = new unsigned long[(w+1) / 8*sizeof(unsigned long) + 1]; } vvp_arith_sum::~vvp_arith_sum() { delete[]sum_; } void vvp_arith_sum::set(vvp_ipoint_t i, functor_t f, bool push) { unsigned page = 0; unsigned pbit = 0; unsigned long carry = 0; sum_[0] = 0; for (unsigned idx = 0 ; idx < wid_ ; idx += 1) { vvp_ipoint_t ptr = ipoint_index(base_,idx); functor_t obj = functor_index(ptr); unsigned ival = obj->ival; if (ival & 0xaa) { output_x_(push); return; } // Accumulate the sum of the input bits. unsigned long tmp = 0; if (ival & 0x01) tmp += 1; if (ival & 0x04) tmp += 1; if (ival & 0x10) tmp += 1; if (ival & 0x40) tmp += 1; // Add in the carry carried over. assert(tmp < (ULONG_MAX/2)); tmp += carry; // Put the next bit into the sum, sum_[page] |= ((tmp&1) << pbit); // ... and carry the remaining bits. carry = tmp >> 1; pbit += 1; if (pbit == 8 * sizeof sum_[page]) { pbit = 0; page += 1; sum_[page] = 0; } } page = 0; pbit = 0; for (unsigned idx = 0 ; idx < wid_ ; idx += 1) { vvp_ipoint_t ptr = ipoint_index(base_,idx); functor_t obj = functor_index(ptr); unsigned oval = (sum_[page] >> pbit) & 1; pbit += 1; if (pbit == 8 * sizeof sum_[page]) { pbit = 0; page += 1; } if (obj->oval == oval) continue; obj->oval = oval; if (push) functor_propagate(ptr); else schedule_functor(ptr, 0); } } vvp_arith_sub::vvp_arith_sub(vvp_ipoint_t b, unsigned w) : vvp_arith_(b, w) { sum_ = new unsigned long[(w+1) / 8*sizeof(unsigned long) + 1]; } vvp_arith_sub::~vvp_arith_sub() { delete[]sum_; } /* * Subtraction works by adding the 2s complement of the B, C and D * inputs from the A input. The 2s complement is the 1s complement * plus one, so we further reduce the operation to adding in the * inverted value and adding a correction. */ void vvp_arith_sub::set(vvp_ipoint_t i, functor_t f, bool push) { unsigned page = 0; unsigned pbit = 0; /* There are 3 values subtracted from the first parameter, so there are three 2s complements, so three ~X +1. That's why the carry starts with 3. */ unsigned long carry = 3; sum_[0] = 0; for (unsigned idx = 0 ; idx < wid_ ; idx += 1) { vvp_ipoint_t ptr = ipoint_index(base_,idx); functor_t obj = functor_index(ptr); unsigned ival = obj->ival; if (ival & 0xaa) { output_x_(push); return; } // Accumulate the sum of the input bits. Add in the // first value, and the ones complement of the other values. unsigned long tmp = 0; if (ival & 0x01) tmp += 1; if (! (ival & 0x04)) tmp += 1; if (! (ival & 0x10)) tmp += 1; if (! (ival & 0x40)) tmp += 1; // Add in the carry carried over. assert(tmp < (ULONG_MAX/2)); tmp += carry; // Put the next bit into the sum, sum_[page] |= ((tmp&1) << pbit); // ... and carry the remaining bits. carry = tmp >> 1; pbit += 1; if (pbit == 8 * sizeof sum_[page]) { pbit = 0; page += 1; sum_[page] = 0; } } page = 0; pbit = 0; for (unsigned idx = 0 ; idx < wid_ ; idx += 1) { vvp_ipoint_t ptr = ipoint_index(base_,idx); functor_t obj = functor_index(ptr); unsigned oval = (sum_[page] >> pbit) & 1; pbit += 1; if (pbit == 8 * sizeof sum_[page]) { pbit = 0; page += 1; } if (obj->oval == oval) continue; obj->oval = oval; if (push) functor_propagate(ptr); else schedule_functor(ptr, 0); } } vvp_cmp_ge::vvp_cmp_ge(vvp_ipoint_t b, unsigned w) : vvp_arith_(b, w) { } void vvp_cmp_ge::set(vvp_ipoint_t i, functor_t f, bool push) { functor_t base_obj = functor_index(base_); unsigned out_val = 1; for (unsigned idx = wid_ ; idx > 0 ; idx -= 1) { vvp_ipoint_t ptr = ipoint_index(base_,idx-1); functor_t obj = functor_index(ptr); unsigned ival = obj->ival; if (ival & 0x0a) { out_val = 2; break; } unsigned a = (ival & 0x01)? 1 : 0; unsigned b = (ival & 0x04)? 1 : 0; if (a > b) { out_val = 1; break; } if (a < b) { out_val = 0; break; } } if (out_val != base_obj->oval) { base_obj->oval = out_val; if (push) functor_propagate(base_); else schedule_functor(base_, 0); } } vvp_cmp_gt::vvp_cmp_gt(vvp_ipoint_t b, unsigned w) : vvp_arith_(b, w) { } void vvp_cmp_gt::set(vvp_ipoint_t i, functor_t f, bool push) { functor_t base_obj = functor_index(base_); unsigned out_val = 0; for (unsigned idx = wid_ ; idx > 0 ; idx -= 1) { vvp_ipoint_t ptr = ipoint_index(base_,idx-1); functor_t obj = functor_index(ptr); unsigned ival = obj->ival; if (ival & 0x0a) { out_val = 2; break; } unsigned a = (ival & 0x01)? 1 : 0; unsigned b = (ival & 0x04)? 1 : 0; if (a > b) { out_val = 1; break; } if (a < b) { out_val = 0; break; } } if (out_val != base_obj->oval) { base_obj->oval = out_val; if (push) functor_propagate(base_); else schedule_functor(base_, 0); } } vvp_shiftl::vvp_shiftl(vvp_ipoint_t b, unsigned w) : vvp_arith_(b, w) { amount_ = 0; } void vvp_shiftl::set(vvp_ipoint_t i, functor_t f, bool push) { amount_ = 0; for (unsigned idx = 0 ; idx < wid_ ; idx += 1) { vvp_ipoint_t ptr = ipoint_index(base_, idx); functor_t fp = functor_index(ptr); unsigned val = (fp->ival >> 2) & 0x03; switch (val) { case 0: break; case 1: amount_ |= 1 << idx; break; default: output_x_(push); return; } } if (amount_ >= wid_) { for (unsigned idx = 0 ; idx < wid_ ; idx += 1) { vvp_ipoint_t optr = ipoint_index(base_, idx); functor_t ofp = functor_index(optr); if (ofp->oval != 0) { ofp->oval = 0; if (push) functor_propagate(optr); else schedule_functor(optr, 0); } } } else { vvp_ipoint_t optr, iptr; functor_t ofp, ifp; for (unsigned idx = 0 ; idx < amount_ ; idx += 1) { optr = ipoint_index(base_, idx); ofp = functor_index(optr); if (ofp->oval != 0) { ofp->oval = 0; if (push) functor_propagate(optr); else schedule_functor(optr, 0); } } for (unsigned idx = amount_ ; idx < wid_ ; idx += 1) { optr = ipoint_index(base_, idx); ofp = functor_index(optr); iptr = ipoint_index(base_, idx - amount_); ifp = functor_index(iptr); if (ofp->oval != (ifp->ival&3)) { ofp->oval = ifp->ival&3; if (push) functor_propagate(optr); else schedule_functor(optr, 0); } } } } vvp_shiftr::vvp_shiftr(vvp_ipoint_t b, unsigned w) : vvp_arith_(b, w) { amount_ = 0; } void vvp_shiftr::set(vvp_ipoint_t i, functor_t f, bool push) { amount_ = 0; for (unsigned idx = 0 ; idx < wid_ ; idx += 1) { vvp_ipoint_t ptr = ipoint_index(base_, idx); functor_t fp = functor_index(ptr); unsigned val = (fp->ival >> 2) & 0x03; switch (val) { case 0: break; case 1: amount_ |= 1 << idx; break; default: output_x_(push); return; } } if (amount_ >= wid_) { for (unsigned idx = 0 ; idx < wid_ ; idx += 1) { vvp_ipoint_t optr = ipoint_index(base_, idx); functor_t ofp = functor_index(optr); if (ofp->oval != 0) { ofp->oval = 0; if (push) functor_propagate(optr); else schedule_functor(optr, 0); } } } else { vvp_ipoint_t optr, iptr; functor_t ofp, ifp; for (unsigned idx = 0 ; idx < (wid_-amount_) ; idx += 1) { optr = ipoint_index(base_, idx); ofp = functor_index(optr); iptr = ipoint_index(base_, idx + amount_); ifp = functor_index(iptr); if (ofp->oval != (ifp->ival&3)) { ofp->oval = ifp->ival&3; if (push) functor_propagate(optr); else schedule_functor(optr, 0); } } for (unsigned idx = wid_-amount_; idx < wid_ ; idx += 1) { optr = ipoint_index(base_, idx); ofp = functor_index(optr); if (ofp->oval != 0) { ofp->oval = 0; if (push) functor_propagate(optr); else schedule_functor(optr, 0); } } } } /* * $Log: arith.cc,v $ * Revision 1.11 2001/07/13 00:38:57 steve * Remove width restriction on subtraction. * * Revision 1.10 2001/07/11 02:27:21 steve * Add support for REadOnlySync and monitors. * * Revision 1.9 2001/07/07 02:57:33 steve * Add the .shift/r functor. * * Revision 1.8 2001/07/06 04:46:44 steve * Add structural left shift (.shift/l) * * Revision 1.7 2001/06/29 01:21:48 steve * Relax limit on width of structural sum. * * Revision 1.6 2001/06/29 01:20:20 steve * Relax limit on width of structural sum. * * Revision 1.5 2001/06/16 23:45:05 steve * Add support for structural multiply in t-dll. * Add code generators and vvp support for both * structural and behavioral multiply. */