Use `return' for null pointers, to avoid a giant block holding the rest

of the function.

1 files changed, 95 insertions, 95 deletions

diff --git a/libc/stdlib/malloc/free.c b/libc/stdlib/malloc/free.c
index 6908e16c1..32e1f766b 100644
--- a/libc/stdlib/malloc/free.c
+++ b/libc/stdlib/malloc/free.c
@@ -22,121 +22,121 @@
 void
 free (void *mem)
 {
-  if (mem)
-    {
-      size_t size;
-      struct heap_free_area *fa;
-      struct heap *heap = &__malloc_heap;
+  size_t size;
+  struct heap_free_area *fa;
+  struct heap *heap = &__malloc_heap;
 
-      size = MALLOC_SIZE (mem);
-      mem = MALLOC_BASE (mem);
+  if (unlikely (! mem))
+    return;
 
-      MALLOC_DEBUG ("free: 0x%lx (base = 0x%lx, total_size = %d)\n",
-		    (long)MALLOC_ADDR (mem), (long)mem, size);
+  size = MALLOC_SIZE (mem);
+  mem = MALLOC_BASE (mem);
 
-      __malloc_lock ();
+  MALLOC_DEBUG ("free: 0x%lx (base = 0x%lx, total_size = %d)\n",
+		(long)MALLOC_ADDR (mem), (long)mem, size);
 
-      /* Put MEM back in the heap, and get the free-area it was placed in.  */
-      fa = __heap_free (heap, mem, size);
+  __malloc_lock ();
 
-      /* See if the free-area FA has grown big enough that it should be
-	 unmapped.  */
-      if (HEAP_FREE_AREA_SIZE (fa) < MALLOC_UNMAP_THRESHOLD)
-	/* Nope, nothing left to do, just release the lock.  */
-	__malloc_unlock ();
-      else
-	/* Yup, try to unmap FA.  */
-	{
-	  unsigned long start = (unsigned long)HEAP_FREE_AREA_START (fa);
-	  unsigned long end = (unsigned long)HEAP_FREE_AREA_END (fa);
+  /* Put MEM back in the heap, and get the free-area it was placed in.  */
+  fa = __heap_free (heap, mem, size);
+
+  /* See if the free-area FA has grown big enough that it should be
+     unmapped.  */
+  if (HEAP_FREE_AREA_SIZE (fa) < MALLOC_UNMAP_THRESHOLD)
+    /* Nope, nothing left to do, just release the lock.  */
+    __malloc_unlock ();
+  else
+    /* Yup, try to unmap FA.  */
+    {
+      unsigned long start = (unsigned long)HEAP_FREE_AREA_START (fa);
+      unsigned long end = (unsigned long)HEAP_FREE_AREA_END (fa);
 #ifndef MALLOC_USE_SBRK
-	  unsigned long unmap_start, unmap_end;
+      unsigned long unmap_start, unmap_end;
 #endif
 
 #ifdef MALLOC_USE_SBRK
-	  /* Get the sbrk lock so that the two possible calls to sbrk below
-	     are guaranteed to be contiguous.  */
-	  __malloc_lock_sbrk ();
-	  /* When using sbrk, we only shrink the heap from the end.  It would
-	     be possible to allow _both_ -- shrinking via sbrk when possible,
-	     and otherwise shrinking via munmap, but this results in holes in
-	     memory that prevent the brk from every growing back down; since
-	     we only ever grow the heap via sbrk, this tends to produce a
-	     continuously growing brk (though the actual memory is unmapped),
-	     which could eventually run out of address space.  Note that
-	     `sbrk(0)' shouldn't normally do a system call, so this test is
-	     reasonably cheap.  */
-	  if ((void *)end != sbrk (0))
-	    {
-	      MALLOC_DEBUG ("  not unmapping: 0x%lx - 0x%lx (%ld bytes)\n",
-			    start, end, end - start);
-	      __malloc_unlock_sbrk ();
-	      __malloc_unlock ();
-	      return;
-	    }
+      /* Get the sbrk lock so that the two possible calls to sbrk below
+	 are guaranteed to be contiguous.  */
+      __malloc_lock_sbrk ();
+      /* When using sbrk, we only shrink the heap from the end.  It would
+	 be possible to allow _both_ -- shrinking via sbrk when possible,
+	 and otherwise shrinking via munmap, but this results in holes in
+	 memory that prevent the brk from every growing back down; since
+	 we only ever grow the heap via sbrk, this tends to produce a
+	 continuously growing brk (though the actual memory is unmapped),
+	 which could eventually run out of address space.  Note that
+	 `sbrk(0)' shouldn't normally do a system call, so this test is
+	 reasonably cheap.  */
+      if ((void *)end != sbrk (0))
+	{
+	  MALLOC_DEBUG ("  not unmapping: 0x%lx - 0x%lx (%ld bytes)\n",
+			start, end, end - start);
+	  __malloc_unlock_sbrk ();
+	  __malloc_unlock ();
+	  return;
+	}
 #endif
 
-	  MALLOC_DEBUG ("  unmapping: 0x%lx - 0x%lx (%ld bytes)\n",
-			start, end, end - start);
+      MALLOC_DEBUG ("  unmapping: 0x%lx - 0x%lx (%ld bytes)\n",
+		    start, end, end - start);
+
+      /* Remove FA from the heap.  */
+      __heap_unlink_free_area (heap, fa);
 
-	  /* Remove FA from the heap.  */
-	  __heap_unlink_free_area (heap, fa);
-
-	  if (!fa->next && !fa->prev)
-	    /* We want to avoid the heap from losing all memory, so reserve
-	       a bit.  This test is only a heuristic -- the existance of
-	       another free area, even if it's smaller than
-	       MALLOC_MIN_SIZE, will cause us not to reserve anything.  */
-	    {
-	      /* Put the reserved memory back in the heap; we asssume that
-		 MALLOC_UNMAP_THRESHOLD is greater than MALLOC_MIN_SIZE, so
-		 we use the latter unconditionally here.  */
-	      __heap_free (heap, (void *)start, MALLOC_MIN_SIZE);
-	      start += MALLOC_MIN_SIZE;
-	    }
+      if (!fa->next && !fa->prev)
+	/* We want to avoid the heap from losing all memory, so reserve
+	   a bit.  This test is only a heuristic -- the existance of
+	   another free area, even if it's smaller than
+	   MALLOC_MIN_SIZE, will cause us not to reserve anything.  */
+	{
+	  /* Put the reserved memory back in the heap; we asssume that
+	     MALLOC_UNMAP_THRESHOLD is greater than MALLOC_MIN_SIZE, so
+	     we use the latter unconditionally here.  */
+	  __heap_free (heap, (void *)start, MALLOC_MIN_SIZE);
+	  start += MALLOC_MIN_SIZE;
+	}
 
 #ifdef MALLOC_USE_SBRK
 
-	  /* Release the main lock; we're still holding the sbrk lock.  */
-	  __malloc_unlock ();
-	  /* Lower the brk.  */
-	  sbrk (start - end);
-	  /* Release the sbrk lock too; now we hold no locks.  */
-	  __malloc_unlock_sbrk ();
+      /* Release the main lock; we're still holding the sbrk lock.  */
+      __malloc_unlock ();
+      /* Lower the brk.  */
+      sbrk (start - end);
+      /* Release the sbrk lock too; now we hold no locks.  */
+      __malloc_unlock_sbrk ();
 
 #else /* !MALLOC_USE_SBRK */
 
-	  /* MEM/LEN may not be page-aligned, so we have to page-align them,
-	     and return any left-over bits on the end to the heap.  */
-	  unmap_start = MALLOC_ROUND_UP_TO_PAGE_SIZE (start);
-	  unmap_end = MALLOC_ROUND_DOWN_TO_PAGE_SIZE (end);
-
-	  /* We have to be careful that any left-over bits are large enough to
-	     return.  Note that we _don't check_ to make sure there's room to
-	     grow/shrink the start/end by another page, we just assume that
-	     the unmap threshold is high enough so that this is always safe
-	     (i.e., it should probably be at least 3 pages).  */
-	  if (unmap_start > start)
-	    {
-	      if (unmap_start - start < HEAP_MIN_FREE_AREA_SIZE)
-		unmap_start += MALLOC_PAGE_SIZE;
-	      __heap_free (heap, (void *)start, unmap_start - start);
-	    }
-	  if (end > unmap_end)
-	    {
-	      if (end - unmap_end < HEAP_MIN_FREE_AREA_SIZE)
-		unmap_end -= MALLOC_PAGE_SIZE;
-	      __heap_free (heap, (void *)unmap_end, end - unmap_end);
-	    }
-
-	  /* Release the malloc lock before we do the system call.  */
-	  __malloc_unlock ();
+      /* MEM/LEN may not be page-aligned, so we have to page-align them,
+	 and return any left-over bits on the end to the heap.  */
+      unmap_start = MALLOC_ROUND_UP_TO_PAGE_SIZE (start);
+      unmap_end = MALLOC_ROUND_DOWN_TO_PAGE_SIZE (end);
+
+      /* We have to be careful that any left-over bits are large enough to
+	 return.  Note that we _don't check_ to make sure there's room to
+	 grow/shrink the start/end by another page, we just assume that
+	 the unmap threshold is high enough so that this is always safe
+	 (i.e., it should probably be at least 3 pages).  */
+      if (unmap_start > start)
+	{
+	  if (unmap_start - start < HEAP_MIN_FREE_AREA_SIZE)
+	    unmap_start += MALLOC_PAGE_SIZE;
+	  __heap_free (heap, (void *)start, unmap_start - start);
+	}
+      if (end > unmap_end)
+	{
+	  if (end - unmap_end < HEAP_MIN_FREE_AREA_SIZE)
+	    unmap_end -= MALLOC_PAGE_SIZE;
+	  __heap_free (heap, (void *)unmap_end, end - unmap_end);
+	}
 
-	  if (unmap_end > unmap_start)
-	    /* Finally, actually unmap the memory.  */
-	    munmap ((void *)unmap_start, unmap_end - unmap_start);
+      /* Release the malloc lock before we do the system call.  */
+      __malloc_unlock ();
+
+      if (unmap_end > unmap_start)
+	/* Finally, actually unmap the memory.  */
+	munmap ((void *)unmap_start, unmap_end - unmap_start);
 
 #endif /* MALLOC_USE_SBRK */
-	}
     }
 }