From 124e750e9a236d782a701debab466d564128c538 Mon Sep 17 00:00:00 2001 From: Yukio Miyasaka Date: Mon, 19 Sep 2022 14:51:34 -0700 Subject: fix compile errors and warnings --- src/aig/gia/giaTtopt.cpp | 232 ++++++++++++++++++++--------------------------- 1 file changed, 98 insertions(+), 134 deletions(-) (limited to 'src/aig') diff --git a/src/aig/gia/giaTtopt.cpp b/src/aig/gia/giaTtopt.cpp index e5dff231..8939a87b 100644 --- a/src/aig/gia/giaTtopt.cpp +++ b/src/aig/gia/giaTtopt.cpp @@ -1,42 +1,20 @@ // Author : Yukio Miyasaka -#if 0 - -#include -#include -#include #include -#include #include -#include -#include #include -#include #include -#include - -#endif #include "gia.h" +#include "misc/vec/vecHash.h" ABC_NAMESPACE_IMPL_START -#if 0 - namespace Ttopt { -struct PairHasher { - std::size_t operator()(const std::pair & k) const { - std::hash hasher; - std::size_t seed = hasher(k.first) + 0x9e3779b9; - seed = hasher(k.second) + 0x9e3779b9 + (seed << 6) + (seed >> 2); - return seed; - } -}; - class TruthTable { public: - const int ww = 64; // word width - const int lww = 6; // log word width + static const int ww; // word width + static const int lww; // log word width typedef std::bitset<64> bsw; int nInputs; @@ -54,11 +32,11 @@ public: std::vector > > vvRedundantIndicesSaved; std::vector > vLevelsSaved; - std::mt19937 rng; static const word ones[]; static const word swapmask[]; TruthTable(int nInputs, int nOutputs): nInputs(nInputs), nOutputs(nOutputs) { + srand(0xABC); if(nInputs >= lww) { nSize = 1 << (nInputs - lww); nTotalSize = nSize * nOutputs; @@ -69,45 +47,12 @@ public: t.resize(nTotalSize); } vLevels.resize(nInputs); - std::iota(vLevels.begin(), vLevels.end(), 0); - } - - std::string BinaryToString(int bin, int size) { - std::string str; - for(int i = 0; i < size; i++) { - str += (bin & 1) + '0'; - bin = bin >> 1; - } - return str; - } - void GeneratePla(std::string filename) { - std::ofstream f(filename); - f << ".i " << nInputs << std::endl; - f << ".o " << nOutputs << std::endl; - if(nSize) { - for(int index = 0; index < nSize; index++) { - for(int pos = 0; pos < ww; pos++) { - int pat = (index << lww) + pos; - f << BinaryToString(pat, nInputs) << " "; - for(int i = 0; i < nOutputs; i++) { - f << ((t[nSize * i + index] >> pos) & 1); - } - f << std::endl; - } - } - } else { - for(int pos = 0; pos < (1 << nInputs); pos++) { - f << BinaryToString(pos, nInputs) << " "; - for(int i = 0; i < nOutputs; i++) { - int padding = i * (1 << nInputs); - f << ((t[padding / ww] >> (pos + padding % ww)) & 1); - } - f << std::endl; - } + for(int i = 0; i < nInputs; i++) { + vLevels[i] = i; } } - virtual void Save(uint i) { + virtual void Save(unsigned i) { if(savedt.size() < i + 1) { savedt.resize(i + 1); vLevelsSaved.resize(i + 1); @@ -116,13 +61,13 @@ public: vLevelsSaved[i] = vLevels; } - virtual void Load(uint i) { + virtual void Load(unsigned i) { assert(i < savedt.size()); t = savedt[i]; vLevels = vLevelsSaved[i]; } - virtual void SaveIndices(uint i) { + virtual void SaveIndices(unsigned i) { if(vvIndicesSaved.size() < i + 1) { vvIndicesSaved.resize(i + 1); vvRedundantIndicesSaved.resize(i + 1); @@ -131,7 +76,7 @@ public: vvRedundantIndicesSaved[i] = vvRedundantIndices; } - virtual void LoadIndices(uint i) { + virtual void LoadIndices(unsigned i) { vvIndices = vvIndicesSaved[i]; vvRedundantIndices = vvRedundantIndicesSaved[i]; } @@ -206,7 +151,7 @@ public: if(fZero || fOne) { return -2 ^ fOne; } - for(uint j = 0; j < vvIndices[lev].size(); j++) { + for(unsigned j = 0; j < vvIndices[lev].size(); j++) { int index2 = vvIndices[lev][j]; bool fEq = true; bool fCompl = true; @@ -226,7 +171,7 @@ public: if(!(value ^ ones[logwidth])) { return -1; } - for(uint j = 0; j < vvIndices[lev].size(); j++) { + for(unsigned j = 0; j < vvIndices[lev].size(); j++) { int index2 = vvIndices[lev][j]; word value2 = value ^ GetValue(index2, lev); if(!(value2)) { @@ -260,7 +205,8 @@ public: } virtual void BDDBuildLevel(int lev) { - for(int index: vvIndices[lev-1]) { + for(unsigned i = 0; i < vvIndices[lev-1].size(); i++) { + int index = vvIndices[lev-1][i]; int cof0 = BDDBuildOne(index << 1, lev); int cof1 = BDDBuildOne((index << 1) ^ 1, lev); if(cof0 == cof1) { @@ -292,7 +238,8 @@ public: } if(lev < nInputs - 2) { vvRedundantIndices[lev+1].clear(); - for(int index: vvIndices[lev+1]) { + for(unsigned i = 0; i < vvIndices[lev+1].size(); i++) { + int index = vvIndices[lev+1][i]; if(IsEq(index << 1, (index << 1) ^ 1, lev + 2)) { vvRedundantIndices[lev+1].push_back(index); } @@ -303,8 +250,8 @@ public: virtual void Swap(int lev) { assert(lev < nInputs - 1); - auto it0 = std::find(vLevels.begin(), vLevels.end(), lev); - auto it1 = std::find(vLevels.begin(), vLevels.end(), lev + 1); + std::vector::iterator it0 = std::find(vLevels.begin(), vLevels.end(), lev); + std::vector::iterator it1 = std::find(vLevels.begin(), vLevels.end(), lev + 1); std::swap(*it0, *it1); if(nInputs - lev - 1 > lww) { int nScopeSize = 1 << (nInputs - lev - 2 - lww); @@ -341,7 +288,7 @@ public: virtual int BDDSwap(int lev) { Swap(lev); for(int i = lev + 2; i < nInputs; i++) { - for(uint j = 0; j < vvIndices[i].size(); j++) { + for(unsigned j = 0; j < vvIndices[i].size(); j++) { SwapIndex(vvIndices[i][j], i - (lev + 2)); } } @@ -354,10 +301,23 @@ public: Save(0); SaveIndices(0); std::vector vars(nInputs); - std::iota(vars.begin(), vars.end(), 0); - std::sort(vars.begin(), vars.end(), [&](int i1, int i2) {return BDDNodeCountLevel(vLevels[i1]) > BDDNodeCountLevel(vLevels[i2]);}); + for(int i = 0; i < nInputs; i++) { + vars[i] = i; + } + std::vector vCounts(nInputs); + for(int i = 0; i < nInputs; i++) { + vCounts[i] = BDDNodeCountLevel(vLevels[i]); + } + for(int i = 1; i < nInputs; i++) { + int j = i; + while(j > 0 && vCounts[vars[j-1]] < vCounts[vars[j]]) { + std::swap(vars[j], vars[j-1]); + j--; + } + } bool turn = true; - for(int var: vars) { + for(unsigned j = 0; j < vars.size(); j++) { + int var = vars[j]; bool updated = false; int lev = vLevels[var]; for(int i = lev; i < nInputs - 1; i++) { @@ -411,8 +371,13 @@ public: Save(2); for(int i = 0; i < nRound; i++) { std::vector vLevelsNew(nInputs); - std::iota(vLevelsNew.begin(), vLevelsNew.end(), 0); - std::shuffle(vLevelsNew.begin(), vLevelsNew.end(), rng); + for(int j = 0; j < nInputs; j++) { + vLevelsNew[j] = j; + } + for(int j = nInputs - 1; j > 0; j--) { + int d = rand() % j; + std::swap(vLevelsNew[j], vLevelsNew[d]); + } Reo(vLevelsNew); int r = SiftReo(); if(best > r) { @@ -465,6 +430,9 @@ public: } }; +const int TruthTable::ww = 64; +const int TruthTable::lww = 6; + const word TruthTable::ones[7] = {ABC_CONST(0x0000000000000001), ABC_CONST(0x0000000000000003), ABC_CONST(0x000000000000000f), @@ -481,25 +449,27 @@ const word TruthTable::swapmask[5] = {ABC_CONST(0x2222222222222222), class TruthTableReo : public TruthTable { public: - bool fBuilt = false; + bool fBuilt; std::vector > vvChildren; std::vector > > vvChildrenSaved; - TruthTableReo(int nInputs, int nOutputs): TruthTable(nInputs, nOutputs) {} + TruthTableReo(int nInputs, int nOutputs): TruthTable(nInputs, nOutputs) { + fBuilt = false; + } - void Save(uint i) override { + void Save(unsigned i) { if(vLevelsSaved.size() < i + 1) { vLevelsSaved.resize(i + 1); } vLevelsSaved[i] = vLevels; } - void Load(uint i) override { + void Load(unsigned i) { assert(i < vLevelsSaved.size()); vLevels = vLevelsSaved[i]; } - void SaveIndices(uint i) override { + void SaveIndices(unsigned i) { TruthTable::SaveIndices(i); if(vvChildrenSaved.size() < i + 1) { vvChildrenSaved.resize(i + 1); @@ -507,19 +477,20 @@ public: vvChildrenSaved[i] = vvChildren; } - void LoadIndices(uint i) override { + void LoadIndices(unsigned i) { TruthTable::LoadIndices(i); vvChildren = vvChildrenSaved[i]; } - void BDDBuildStartup() override { + void BDDBuildStartup() { vvChildren.clear(); vvChildren.resize(nInputs); TruthTable::BDDBuildStartup(); } - void BDDBuildLevel(int lev) override { - for(int index: vvIndices[lev-1]) { + void BDDBuildLevel(int lev) { + for(unsigned i = 0; i < vvIndices[lev-1].size(); i++) { + int index = vvIndices[lev-1][i]; int cof0 = BDDBuildOne(index << 1, lev); int cof1 = BDDBuildOne((index << 1) ^ 1, lev); vvChildren[lev-1].push_back(cof0); @@ -530,7 +501,7 @@ public: } } - int BDDBuild() override { + int BDDBuild() { if(fBuilt) { return BDDNodeCount(); } @@ -542,7 +513,7 @@ public: return BDDNodeCount(); } - int BDDRebuildOne(int index, int cof0, int cof1, int lev, std::unordered_map, int, PairHasher> &unique, std::vector &vChildrenLow) { + int BDDRebuildOne(int index, int cof0, int cof1, int lev, Hash_IntMan_t *unique, std::vector &vChildrenLow) { if(cof0 < 0 && cof0 == cof1) { return cof0; } @@ -551,11 +522,12 @@ public: cof0 ^= 1; cof1 ^= 1; } - if(unique.count({cof0, cof1})) { - return (unique[{cof0, cof1}] << 1) ^ fCompl; + int *place = Hash_Int2ManLookup(unique, cof0, cof1); + if(*place) { + return (Hash_IntObjData2(unique, *place) << 1) ^ fCompl; } vvIndices[lev].push_back(index); - unique[{cof0, cof1}] = vvIndices[lev].size() - 1; + Hash_Int2ManInsert(unique, cof0, cof1, vvIndices[lev].size() - 1); vChildrenLow.push_back(cof0); vChildrenLow.push_back(cof1); if(cof0 == cof1) { @@ -564,15 +536,14 @@ public: return ((vvIndices[lev].size() - 1) << 1) ^ fCompl; } - int BDDRebuild(int lev) override { + int BDDRebuild(int lev) { vvRedundantIndices[lev].clear(); vvRedundantIndices[lev+1].clear(); std::vector vChildrenHigh; std::vector vChildrenLow; - std::unordered_map, int, PairHasher> unique; - unique.reserve(2 * vvIndices[lev+1].size()); + Hash_IntMan_t *unique = Hash_IntManStart(2 * vvIndices[lev+1].size()); vvIndices[lev+1].clear(); - for(uint i = 0; i < vvIndices[lev].size(); i++) { + for(unsigned i = 0; i < vvIndices[lev].size(); i++) { int index = vvIndices[lev][i]; int cof0index = vvChildren[lev][i+i] >> 1; int cof1index = vvChildren[lev][i+i+1] >> 1; @@ -601,25 +572,26 @@ public: vvRedundantIndices[lev].push_back(index); } } + Hash_IntManStop(unique); vvChildren[lev] = vChildrenHigh; vvChildren[lev+1] = vChildrenLow; return BDDNodeCount(); } - void Swap(int lev) override { + void Swap(int lev) { assert(lev < nInputs - 1); - auto it0 = std::find(vLevels.begin(), vLevels.end(), lev); - auto it1 = std::find(vLevels.begin(), vLevels.end(), lev + 1); + std::vector::iterator it0 = std::find(vLevels.begin(), vLevels.end(), lev); + std::vector::iterator it1 = std::find(vLevels.begin(), vLevels.end(), lev + 1); std::swap(*it0, *it1); BDDRebuild(lev); } - int BDDSwap(int lev) override { + int BDDSwap(int lev) { Swap(lev); return BDDNodeCount(); } - virtual void BDDGenerateAig(Gia_Man_t *pNew, Vec_Int_t *vSupp) override { + virtual void BDDGenerateAig(Gia_Man_t *pNew, Vec_Int_t *vSupp) { abort(); } }; @@ -712,7 +684,7 @@ public: } } - void Save(uint i) override { + void Save(unsigned i) { TruthTable::Save(i); if(savedcare.size() < i + 1) { savedcare.resize(i + 1); @@ -720,12 +692,12 @@ public: savedcare[i] = care; } - void Load(uint i) override { + void Load(unsigned i) { TruthTable::Load(i); care = savedcare[i]; } - void SaveIndices(uint i) override { + void SaveIndices(unsigned i) { TruthTable::SaveIndices(i); if(vvMergedIndicesSaved.size() < i + 1) { vvMergedIndicesSaved.resize(i + 1); @@ -733,12 +705,12 @@ public: vvMergedIndicesSaved[i] = vvMergedIndices; } - void LoadIndices(uint i) override { + void LoadIndices(unsigned i) { TruthTable::LoadIndices(i); vvMergedIndices = vvMergedIndicesSaved[i]; } - void Swap(int lev) override { + void Swap(int lev) { TruthTable::Swap(lev); if(nInputs - lev - 1 > lww) { int nScopeSize = 1 << (nInputs - lev - 2 - lww); @@ -899,10 +871,10 @@ public: void Merge(int index1, int index2, int lev, bool fCompl) { MergeCare(index1, index2, lev); - vvMergedIndices[lev].push_back({(index1 << 1) ^ fCompl, index2}); + vvMergedIndices[lev].push_back(std::make_pair((index1 << 1) ^ fCompl, index2)); } - int BDDBuildOne(int index, int lev) override { + int BDDBuildOne(int index, int lev) { int r = BDDFind(index, lev); if(r >= -2) { if(r >= 0) { @@ -916,13 +888,13 @@ public: void CompleteMerge() { for(int i = nInputs - 1; i >= 0; i--) { - for(auto it = vvMergedIndices[i].rbegin(); it != vvMergedIndices[i].rend(); it++) { + for(std::vector >::reverse_iterator it = vvMergedIndices[i].rbegin(); it != vvMergedIndices[i].rend(); it++) { CopyFunc((*it).second, (*it).first >> 1, i, (*it).first & 1); } } } - void BDDBuildStartup() override { + void BDDBuildStartup() { RestoreCare(); vvIndices.clear(); vvIndices.resize(nInputs); @@ -938,12 +910,13 @@ public: } virtual void BDDRebuildByMerge(int lev) { - for(auto &p: vvMergedIndices[lev]) { + for(unsigned i = 0; i < vvMergedIndices[lev].size(); i++) { + std::pair &p = vvMergedIndices[lev][i]; MergeCare(p.first >> 1, p.second, lev); } } - int BDDRebuild(int lev) override { + int BDDRebuild(int lev) { RestoreCare(); for(int i = lev; i < nInputs; i++) { vvIndices[i].clear(); @@ -969,7 +942,7 @@ public: return BDDNodeCount(); } - int BDDSwap(int lev) override { + int BDDSwap(int lev) { Swap(lev); return BDDRebuild(lev); } @@ -993,7 +966,8 @@ public: virtual void Optimize() { OptimizationStartup(); for(int i = 1; i < nInputs; i++) { - for(int index: vvIndices[i-1]) { + for(unsigned j = 0; j < vvIndices[i-1].size(); j++) { + int index = vvIndices[i-1][j]; BDDBuildOne(index << 1, i); BDDBuildOne((index << 1) ^ 1, i); } @@ -1021,7 +995,8 @@ public: if(fZero || fOne) { return -2 ^ fOne; } - for(int index2: vvIndices[lev]) { + for(unsigned j = 0; j < vvIndices[lev].size(); j++) { + int index2 = vvIndices[lev][j]; bool fEq = true; bool fCompl = true; for(int i = 0; i < nScopeSize && (fEq || fCompl); i++) { @@ -1044,7 +1019,8 @@ public: if(!((value ^ one) & cvalue)) { return -1; } - for(int index2: vvIndices[lev]) { + for(unsigned j = 0; j < vvIndices[lev].size(); j++) { + int index2 = vvIndices[lev][j]; word value2 = value ^ GetValue(index2, lev); word cvalue2 = cvalue & GetCare(index2, lev); if(!(value2 & cvalue2)) { @@ -1058,14 +1034,14 @@ public: return -3; } - int BDDBuildOne(int index, int lev) override { + int BDDBuildOne(int index, int lev) { int r = BDDFindTSM(index, lev); if(r >= -2) { if(r >= 0) { CopyFuncMasked(r >> 1, index, lev, r & 1); Merge(r >> 1, index, lev, r & 1); } else { - vvMergedIndices[lev].push_back({r, index}); + vvMergedIndices[lev].push_back(std::make_pair(r, index)); } return r; } @@ -1073,15 +1049,16 @@ public: return index << 1; } - int BDDBuild() override { + int BDDBuild() { TruthTable::Save(3); int r = TruthTable::BDDBuild(); TruthTable::Load(3); return r; } - void BDDRebuildByMerge(int lev) override { - for(auto &p: vvMergedIndices[lev]) { + void BDDRebuildByMerge(int lev) { + for(unsigned i = 0; i < vvMergedIndices[lev].size(); i++) { + std::pair &p = vvMergedIndices[lev][i]; if(p.first >= 0) { CopyFuncMasked(p.first >> 1, p.second, lev, p.first & 1); MergeCare(p.first >> 1, p.second, lev); @@ -1089,7 +1066,7 @@ public: } } - int BDDRebuild(int lev) override { + int BDDRebuild(int lev) { TruthTable::Save(3); int r = TruthTableCare::BDDRebuild(lev); TruthTable::Load(3); @@ -1209,19 +1186,6 @@ Gia_Man_t * Gia_ManTtoptCare( Gia_Man_t * p, int nIns, int nOuts, int nRounds, c Vec_WrdFreeP( &vSimI ); return pNew; } -#endif - -extern "C" -Gia_Man_t * Gia_ManTtopt( Gia_Man_t * p, int nIns, int nOuts, int nRounds ) -{ - return NULL; -} - -extern "C" -Gia_Man_t * Gia_ManTtoptCare( Gia_Man_t * p, int nIns, int nOuts, int nRounds, char * pFileName, int nRarity ) -{ - return NULL; -} ABC_NAMESPACE_IMPL_END -- cgit v1.2.3