2022-04-19 10:56:42 +02:00
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#ifndef ABSSTATE_H
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#define ABSSTATE_H
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2022-05-03 14:04:21 +02:00
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#include <algorithm>
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2022-04-19 10:56:42 +02:00
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#include <cassert>
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#include <cstddef>
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#include <cstdlib>
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#include <iostream>
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#include <list>
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#include <map>
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#include <ostream>
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#include <sstream>
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#include <string>
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2022-04-22 10:35:30 +02:00
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#include <llvm/Support/raw_ostream.h>
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2022-04-19 10:56:42 +02:00
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#include "Address.h"
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// Forward declarations
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namespace cacheAnaPass {
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class AbstractState;
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} // namespace cacheAnaPass
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class AbstractState {
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public: // everything is public, because IDGAF
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std::list<unsigned int> Successors;
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std::list<unsigned int> Predecessors;
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unsigned int Addr;
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unsigned int Unrolled;
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2022-05-06 10:04:45 +02:00
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int Computed = 0;
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bool Filled = false;
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// Only entries below this comment are needed for the exercise.
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/**
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* @brief Containing all Abstract Cache Tags.
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* Key of the list has no Meaning.
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*
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*/
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struct Entry {
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std::list<unsigned int> Blocks;
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};
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/**
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* @brief Cache Set, Key is the Age of the Entries.
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*
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*/
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struct Set {
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// uInt in this map is the Age.
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std::map<unsigned int, Entry> Associativity;
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};
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/**
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* @brief Cache Sets, key is the Set number [0-15], derived from Address.
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*
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*/
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std::map<unsigned int, Set> Sets;
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AbstractState(AbstractState const &Copy) {
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Addr = Copy.Addr;
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Unrolled = Copy.Unrolled;
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for (auto S : Copy.Sets) {
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unsigned int SetNr = S.first;
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for (auto E : S.second.Associativity) {
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unsigned int Age = E.first;
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for (auto B : E.second.Blocks) {
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Sets[SetNr].Associativity[Age].Blocks.push_back(B);
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}
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}
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}
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}
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2022-05-03 14:04:21 +02:00
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AbstractState(AbstractState const &Copy, Address Update) {
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Addr = Copy.Addr;
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Unrolled = Copy.Unrolled;
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for (auto S : Copy.Sets) {
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unsigned int SetNr = S.first;
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for (auto E : S.second.Associativity) {
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unsigned int Age = E.first;
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for (auto B : E.second.Blocks) {
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Sets[SetNr].Associativity[Age].Blocks.push_back(B);
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}
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}
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}
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this->update(Update);
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}
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AbstractState() {}
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AbstractState(unsigned int AddressIn) {
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Addr = AddressIn;
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Unrolled = 0;
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}
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AbstractState(unsigned int AddressIn, unsigned int UnrolledIn) {
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Addr = AddressIn;
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Unrolled = UnrolledIn;
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}
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// AbstractState(Address Addr) {
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// Sets[Addr.Index].Associativity[0] = {{Addr.Tag}};
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// }
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void setUnrolled(unsigned int In) { Unrolled = In; }
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bool operator==(AbstractState In) {
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for (int Index; Index < 16; Index++) {
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for (int Age; Age < 4; Age++) {
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for (auto E1 : Sets[Index].Associativity[Age].Blocks) {
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// find E1 in In States Set and Age.
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if (std::find(In.Sets[Index].Associativity[Age].Blocks.begin(),
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In.Sets[Index].Associativity[Age].Blocks.end(),
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E1) == In.Sets[Index].Associativity[Age].Blocks.end()) {
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return false;
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}
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}
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for (auto E2 : In.Sets[Index].Associativity[Age].Blocks) {
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// find E2 in This Set and Age.
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if (std::find(Sets[Index].Associativity[Age].Blocks.begin(),
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Sets[Index].Associativity[Age].Blocks.end(),
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E2) == Sets[Index].Associativity[Age].Blocks.end()) {
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return false;
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}
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}
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}
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}
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return true;
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}
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2022-04-19 10:56:42 +02:00
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/**
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* @brief Executes an Must LRU Join on the AbstractCacheState
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*
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* @param In, AbstractState that gets joined into the State.
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*/
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void mustJoin(AbstractState In) {
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/**
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* The exercise is to Fill this function with an LRU must Join.
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* For this you need to use Sets. Associativity and Blocks.
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*/
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}
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/**
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* @brief Checks if Address Addr is in Cache
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*
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* @param Addr Address to check.
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* @return true CacheState contains Address Addr
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* @return false CacheState does not contain Address Addr
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*/
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bool isHit(Address Addr) {
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for (auto E : Sets[Addr.Index].Associativity) {
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for (auto B : E.second.Blocks) {
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if (B == Addr.Tag)
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return true;
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}
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}
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return false;
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}
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/**
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* @brief Updates the AbstractState with given Address
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*
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* @param Addr , Address
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*/
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void update(Address Addr) {
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// If Updated Address is of Age 0 do nothing
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if (std::find(Sets[Addr.Index].Associativity[0].Blocks.begin(),
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Sets[Addr.Index].Associativity[0].Blocks.end(),
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Addr.Tag) != Sets[Addr.Index].Associativity[0].Blocks.end())
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return;
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// This loopages all entries by one. 3 <-2, 2<-1, 1<-0
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for (int I = 3; I > 0; I--) {
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Sets[Addr.Index].Associativity[I] = Sets[Addr.Index].Associativity[I - 1];
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Sets[Addr.Index].Associativity[I].Blocks.remove(Addr.Tag);
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}
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// entry at age 0 is updated with current address.
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Sets[Addr.Index].Associativity[0].Blocks = {Addr.Tag};
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}
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/**
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* @brief Fills the AbstractState PreState and updates with PreAddress.
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*
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* @param PreState, State that fills this state.
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*
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* @param PreAddr Address of PreState
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*/
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void fill(AbstractState PreState, Address PreAddr) {
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bool Verbose = false;
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// copy Pre State into this.
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for (auto S : PreState.Sets) {
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unsigned int Index = S.first;
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for (auto E : S.second.Associativity) {
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unsigned int Age = E.first;
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// If updated age is greater 4 The Tag is no longer in Cache.
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// Due to associativity of 4 per set.
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if (Age >= 4)
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break;
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for (auto B : E.second.Blocks) {
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Sets[Index].Associativity[Age].Blocks.push_back(B);
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}
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}
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}
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if (Verbose) {
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llvm::outs() << "Before:\n";
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this->dump();
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}
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// update this with PreAddr
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this->update(PreAddr);
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if (Verbose) {
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llvm::outs() << "Update Tag: " << PreAddr.Tag << "\n";
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llvm::outs() << "Update Set: " << PreAddr.Index << "\n";
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llvm::outs() << "After:\n";
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this->dump();
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}
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}
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void dump() {
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llvm::outs() << Addr << " {\n";
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llvm::outs() << "Unrolled: " << Unrolled << "\n";
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llvm::outs() << "Computed: " << Computed << "\n";
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llvm::outs() << "Predecessors: ";
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for (auto PreNr : Predecessors) {
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llvm::outs() << PreNr << " ";
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}
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llvm::outs() << "\n";
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llvm::outs() << "Successors: ";
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for (auto SuccNr : Successors) {
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llvm::outs() << SuccNr << " ";
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}
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llvm::outs() << "\n";
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for (auto SetPair : Sets) {
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llvm::outs() << "Set[" << SetPair.first << "]: \n";
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for (auto EntryPair : SetPair.second.Associativity) {
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llvm::outs() << " Age[" << EntryPair.first << "]: ";
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for (auto Block : EntryPair.second.Blocks) {
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llvm::outs() << Block << " ";
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}
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llvm::outs() << "\n";
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}
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}
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llvm::outs() << "}\n";
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}
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}; // namespace
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#endif // STATE_H
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