gem5/cpu/o3/dep_graph.hh


#ifndef __CPU_O3_DEP_GRAPH_HH__
#define __CPU_O3_DEP_GRAPH_HH__

#include "cpu/o3/comm.hh"

template <class DynInstPtr>
class DependencyEntry
{
  public:
    DependencyEntry()
        : inst(NULL), next(NULL)
    { }

    DynInstPtr inst;
    //Might want to include data about what arch. register the
    //dependence is waiting on.
    DependencyEntry<DynInstPtr> *next;
};

template <class DynInstPtr>
class DependencyGraph
{
  public:
    typedef DependencyEntry<DynInstPtr> DepEntry;

    DependencyGraph()
        : numEntries(0), memAllocCounter(0), nodesTraversed(0), nodesRemoved(0)
    { }

    void resize(int num_entries);

    void reset();

    void insert(PhysRegIndex idx, DynInstPtr &new_inst);

    void setInst(PhysRegIndex idx, DynInstPtr &new_inst)
    { dependGraph[idx].inst = new_inst; }

    void clearInst(PhysRegIndex idx)
    { dependGraph[idx].inst = NULL; }

    void remove(PhysRegIndex idx, DynInstPtr &inst_to_remove);

    DynInstPtr pop(PhysRegIndex idx);

    bool empty(PhysRegIndex idx) { return !dependGraph[idx].next; }

    /** Debugging function to dump out the dependency graph.
     */
    void dump();

  private:
    /** Array of linked lists.  Each linked list is a list of all the
     *  instructions that depend upon a given register.  The actual
     *  register's index is used to index into the graph; ie all
     *  instructions in flight that are dependent upon r34 will be
     *  in the linked list of dependGraph[34].
     */
    DepEntry *dependGraph;

    int numEntries;

    // Debug variable, remove when done testing.
    unsigned memAllocCounter;

  public:
    uint64_t nodesTraversed;
    uint64_t nodesRemoved;
};

template <class DynInstPtr>
void
DependencyGraph<DynInstPtr>::resize(int num_entries)
{
    numEntries = num_entries;
    dependGraph = new DepEntry[numEntries];
}

template <class DynInstPtr>
void
DependencyGraph<DynInstPtr>::reset()
{
    // Clear the dependency graph
    DepEntry *curr;
    DepEntry *prev;

    for (int i = 0; i < numEntries; ++i) {
        curr = dependGraph[i].next;

        while (curr) {
            memAllocCounter--;

            prev = curr;
            curr = prev->next;
            prev->inst = NULL;

            delete prev;
        }

        if (dependGraph[i].inst) {
            dependGraph[i].inst = NULL;
        }

        dependGraph[i].next = NULL;
    }
}

template <class DynInstPtr>
void
DependencyGraph<DynInstPtr>::insert(PhysRegIndex idx, DynInstPtr &new_inst)
{
    //Add this new, dependent instruction at the head of the dependency
    //chain.

    // First create the entry that will be added to the head of the
    // dependency chain.
    DepEntry *new_entry = new DepEntry;
    new_entry->next = dependGraph[idx].next;
    new_entry->inst = new_inst;

    // Then actually add it to the chain.
    dependGraph[idx].next = new_entry;

    ++memAllocCounter;
}


template <class DynInstPtr>
void
DependencyGraph<DynInstPtr>::remove(PhysRegIndex idx,
                                    DynInstPtr &inst_to_remove)
{
    DepEntry *prev = &dependGraph[idx];
    DepEntry *curr = dependGraph[idx].next;

    // Make sure curr isn't NULL.  Because this instruction is being
    // removed from a dependency list, it must have been placed there at
    // an earlier time.  The dependency chain should not be empty,
    // unless the instruction dependent upon it is already ready.
    if (curr == NULL) {
        return;
    }

    nodesRemoved++;

    // Find the instruction to remove within the dependency linked list.
    while (curr->inst != inst_to_remove) {
        prev = curr;
        curr = curr->next;
        nodesTraversed++;

        assert(curr != NULL);
    }

    // Now remove this instruction from the list.
    prev->next = curr->next;

    --memAllocCounter;

    // Could push this off to the destructor of DependencyEntry
    curr->inst = NULL;

    delete curr;
}

template <class DynInstPtr>
DynInstPtr
DependencyGraph<DynInstPtr>::pop(PhysRegIndex idx)
{
    DepEntry *node;
    node = dependGraph[idx].next;
    DynInstPtr inst = NULL;
    if (node) {
        inst = node->inst;
        dependGraph[idx].next = node->next;
        node->inst = NULL;
        memAllocCounter--;
        delete node;
    }
    return inst;
}

template <class DynInstPtr>
void
DependencyGraph<DynInstPtr>::dump()
{
    DepEntry *curr;

    for (int i = 0; i < numEntries; ++i)
    {
        curr = &dependGraph[i];

        if (curr->inst) {
            cprintf("dependGraph[%i]: producer: %#x [sn:%lli] consumer: ",
                    i, curr->inst->readPC(), curr->inst->seqNum);
        } else {
            cprintf("dependGraph[%i]: No producer. consumer: ", i);
        }

        while (curr->next != NULL) {
            curr = curr->next;

            cprintf("%#x [sn:%lli] ",
                    curr->inst->readPC(), curr->inst->seqNum);
        }

        cprintf("\n");
    }
    cprintf("memAllocCounter: %i\n", memAllocCounter);
}

#endif // __CPU_O3_DEP_GRAPH_HH__
IEW/IQ code cleanup and reorganization. Dependecy graph code moved into its own class. This requires the changes to the functional units, which is in the next check in. cpu/o3/iew.hh: cpu/o3/iew_impl.hh: IEW and IQ code cleanup and reorganization. cpu/o3/inst_queue.cc: Dependency graph code moved into its own class now. cpu/o3/inst_queue.hh: IEW/IQ code cleanup and reorganization. Dependecy graph code moved into its own class. cpu/o3/inst_queue_impl.hh: IEW/IQ code cleanup and reorganization. Dependecy graph code moved into its own class. Issue loop cleaned up, with completion events for functional units now used more correctly (before they weren't used for multi-cycle ops with pipelined FU's). --HG-- extra : convert_revision : 35e50192df6f71dc81d46a73fdd65f7ec07c10e4 2006-05-19 21:44:03 +02:00
			`#ifndef __CPU_O3_DEP_GRAPH_HH__`
			`#define __CPU_O3_DEP_GRAPH_HH__`

			`#include "cpu/o3/comm.hh"`

			`template <class DynInstPtr>`
			`class DependencyEntry`
			`{`
			`public:`
			`DependencyEntry()`
			`: inst(NULL), next(NULL)`
			`{ }`

			`DynInstPtr inst;`
			`//Might want to include data about what arch. register the`
			`//dependence is waiting on.`
			`DependencyEntry<DynInstPtr> *next;`
			`};`

			`template <class DynInstPtr>`
			`class DependencyGraph`
			`{`
			`public:`
			`typedef DependencyEntry<DynInstPtr> DepEntry;`

			`DependencyGraph()`
			`: numEntries(0), memAllocCounter(0), nodesTraversed(0), nodesRemoved(0)`
			`{ }`

			`void resize(int num_entries);`

			`void reset();`

			`void insert(PhysRegIndex idx, DynInstPtr &new_inst);`

			`void setInst(PhysRegIndex idx, DynInstPtr &new_inst)`
			`{ dependGraph[idx].inst = new_inst; }`

			`void clearInst(PhysRegIndex idx)`
			`{ dependGraph[idx].inst = NULL; }`

			`void remove(PhysRegIndex idx, DynInstPtr &inst_to_remove);`

			`DynInstPtr pop(PhysRegIndex idx);`

			`bool empty(PhysRegIndex idx) { return !dependGraph[idx].next; }`

			`/** Debugging function to dump out the dependency graph.`
			`*/`
			`void dump();`

			`private:`
			`/** Array of linked lists. Each linked list is a list of all the`
			`* instructions that depend upon a given register. The actual`
			`* register's index is used to index into the graph; ie all`
			`* instructions in flight that are dependent upon r34 will be`
			`* in the linked list of dependGraph[34].`
			`*/`
			`DepEntry *dependGraph;`

			`int numEntries;`

			`// Debug variable, remove when done testing.`
			`unsigned memAllocCounter;`

			`public:`
			`uint64_t nodesTraversed;`
			`uint64_t nodesRemoved;`
			`};`

			`template <class DynInstPtr>`
			`void`
			`DependencyGraph<DynInstPtr>::resize(int num_entries)`
			`{`
			`numEntries = num_entries;`
			`dependGraph = new DepEntry[numEntries];`
			`}`

			`template <class DynInstPtr>`
			`void`
			`DependencyGraph<DynInstPtr>::reset()`
			`{`
			`// Clear the dependency graph`
			`DepEntry *curr;`
			`DepEntry *prev;`

			`for (int i = 0; i < numEntries; ++i) {`
			`curr = dependGraph[i].next;`

			`while (curr) {`
			`memAllocCounter--;`

			`prev = curr;`
			`curr = prev->next;`
			`prev->inst = NULL;`

			`delete prev;`
			`}`

			`if (dependGraph[i].inst) {`
			`dependGraph[i].inst = NULL;`
			`}`

			`dependGraph[i].next = NULL;`
			`}`
			`}`

			`template <class DynInstPtr>`
			`void`
			`DependencyGraph<DynInstPtr>::insert(PhysRegIndex idx, DynInstPtr &new_inst)`
			`{`
			`//Add this new, dependent instruction at the head of the dependency`
			`//chain.`

			`// First create the entry that will be added to the head of the`
			`// dependency chain.`
			`DepEntry *new_entry = new DepEntry;`
			`new_entry->next = dependGraph[idx].next;`
			`new_entry->inst = new_inst;`

			`// Then actually add it to the chain.`
			`dependGraph[idx].next = new_entry;`

			`++memAllocCounter;`
			`}`


			`template <class DynInstPtr>`
			`void`
			`DependencyGraph<DynInstPtr>::remove(PhysRegIndex idx,`
			`DynInstPtr &inst_to_remove)`
			`{`
			`DepEntry *prev = &dependGraph[idx];`
			`DepEntry *curr = dependGraph[idx].next;`

			`// Make sure curr isn't NULL. Because this instruction is being`
			`// removed from a dependency list, it must have been placed there at`
			`// an earlier time. The dependency chain should not be empty,`
			`// unless the instruction dependent upon it is already ready.`
			`if (curr == NULL) {`
			`return;`
			`}`

			`nodesRemoved++;`

			`// Find the instruction to remove within the dependency linked list.`
			`while (curr->inst != inst_to_remove) {`
			`prev = curr;`
			`curr = curr->next;`
			`nodesTraversed++;`

			`assert(curr != NULL);`
			`}`

			`// Now remove this instruction from the list.`
			`prev->next = curr->next;`

			`--memAllocCounter;`

			`// Could push this off to the destructor of DependencyEntry`
			`curr->inst = NULL;`

			`delete curr;`
			`}`

			`template <class DynInstPtr>`
			`DynInstPtr`
			`DependencyGraph<DynInstPtr>::pop(PhysRegIndex idx)`
			`{`
			`DepEntry *node;`
			`node = dependGraph[idx].next;`
			`DynInstPtr inst = NULL;`
			`if (node) {`
			`inst = node->inst;`
			`dependGraph[idx].next = node->next;`
			`node->inst = NULL;`
			`memAllocCounter--;`
			`delete node;`
			`}`
			`return inst;`
			`}`

			`template <class DynInstPtr>`
			`void`
			`DependencyGraph<DynInstPtr>::dump()`
			`{`
			`DepEntry *curr;`

			`for (int i = 0; i < numEntries; ++i)`
			`{`
			`curr = &dependGraph[i];`

			`if (curr->inst) {`
			`cprintf("dependGraph[%i]: producer: %#x [sn:%lli] consumer: ",`
			`i, curr->inst->readPC(), curr->inst->seqNum);`
			`} else {`
			`cprintf("dependGraph[%i]: No producer. consumer: ", i);`
			`}`

			`while (curr->next != NULL) {`
			`curr = curr->next;`

			`cprintf("%#x [sn:%lli] ",`
			`curr->inst->readPC(), curr->inst->seqNum);`
			`}`

			`cprintf("\n");`
			`}`
			`cprintf("memAllocCounter: %i\n", memAllocCounter);`
			`}`

			`#endif // __CPU_O3_DEP_GRAPH_HH__`