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/* -----------------------------------------------------------------------------
 *
 * (c) The GHC Team, 2019
 * Author: Daniel Gröber
 *
 * Generalised profiling heap traversal.
 *
 * ---------------------------------------------------------------------------*/

#pragma once

#if defined(PROFILING)

#include <rts/Types.h>
#include "RetainerSet.h"

#include "BeginPrivate.h"

void resetStaticObjectForProfiling(StgClosure *static_objects);

/* See Note [Profiling heap traversal visited bit]. */
extern StgWord flip;

#define isTravDataValid(c) \
  ((((StgWord)(c)->header.prof.hp.trav.lsb & 1) ^ flip) == 0)

typedef struct traverseState_ traverseState;

typedef union stackData_ {
     /**
      * Most recent retainer for the corresponding closure on the stack.
      */
    retainer c_child_r;
} stackData;

typedef struct stackElement_ stackElement;

typedef struct traverseState_ {
/*
  Invariants:

    firstStack points to the first block group.

    currentStack points to the block group currently being used.

    currentStack->free == stackLimit.

    stackTop points to the topmost byte in the stack of currentStack.

    Unless the whole stack is empty, stackTop must point to the topmost
    object (or byte) in the whole stack. Thus, it is only when the whole stack
    is empty that stackTop == stackLimit (not during the execution of
    pushStackElement() and popStackElement()).

    stackBottom == currentStack->start.

    stackLimit == currentStack->start + BLOCK_SIZE_W * currentStack->blocks.


  Note:

    When a current stack becomes empty, stackTop is set to point to
    the topmost element on the previous block group so as to satisfy
    the invariants described above.
 */
    bdescr *firstStack;
    bdescr *currentStack;
    stackElement *stackBottom, *stackTop, *stackLimit;

/*
  stackSize records the current size of the stack.
  maxStackSize records its high water mark.
  Invariants:
    stackSize <= maxStackSize
  Note:
    stackSize is just an estimate measure of the depth of the graph. The reason
    is that some heap objects have only a single child and may not result
    in a new element being pushed onto the stack. Therefore, at the end of
    retainer profiling, maxStackSize is some value no greater
    than the actual depth of the graph.
 */
    int stackSize, maxStackSize;
} traverseState;

/**
 * Callback called when heap traversal visits a closure.
 *
 * The callback can assume that the closure's profiling data has been
 * initialized to zero if this is the first visit during a pass.
 *
 * See Note [Profiling heap traversal visited bit].
 *
 * Returning 'false' will instruct the heap traversal code to skip processing
 * this closure's children. If you don't need to traverse any closure more than
 * once you can simply return 'first_visit'.
 */
typedef bool (*visitClosure_cb) (
    const StgClosure *c,
    const StgClosure *cp,
    const stackData data,
    const bool first_visit,
    stackData *child_data);

void traverseWorkStack(traverseState *ts, visitClosure_cb visit_cb);
void traversePushClosure(traverseState *ts, StgClosure *c, StgClosure *cp, stackData data);
bool traverseMaybeInitClosureData(StgClosure *c);

void initializeTraverseStack(traverseState *ts);
void closeTraverseStack(traverseState *ts);
int getTraverseStackMaxSize(traverseState *ts);

W_ traverseWorkStackBlocks(traverseState *ts);

#include "EndPrivate.h"

#endif /* PROFILING */