0.pre7.104:

	4-space tabs in C code

diff --git a/TODO b/TODO
index 6225be1..f45f268 100644 (file)
--- a/TODO
+++ b/TODO
@@ -5,6 +5,9 @@ for 0.7.0:
        leaving some filing for later:-) from the monster
        EVAL/EVAL-WHEN/%COMPILE/DEFUN/DEFSTRUCT cleanup:
        ** made inlining DEFUN inside MACROLET work again
+       ** whatever bug it is that causes s/#'(lambda/(lambda/ to 
+               cause compilation failure in condition.lisp
+       ** perhaps function debug name quick fix, if there's an easy way
 * more renaming in global external names:
        ** reserved DO-FOO-style names for iteration macros
        ** finished s/FUNCTION/FUN/
@@ -12,12 +15,8 @@ for 0.7.0:
        ** s/TOP-LEVEL/TOPLEVEL/
 * global style systematization:
        ** s/#'(lambda/(lambda/
-       ** four-space indentation in C
 * pending patches and bug reports that go in (or else get handled
        somehow, rejected/logged/whatever) before 0.7.0:
-       ** NJF bug report "bug in COPY-READTABLE" and APD patch,
-               both sbcl-devel 2001-12-24
-       ** APD patch for other readtable functions, sbcl-devel 2001-12-24
 =======================================================================
 for early 0.7.x:
 

diff --git a/src/runtime/alloc.c b/src/runtime/alloc.c
index 78904a9..661cdf4 100644 (file)
--- a/src/runtime/alloc.c
+++ b/src/runtime/alloc.c
@@ -22,7 +22,7 @@
 
 #define GET_FREE_POINTER() dynamic_space_free_pointer
 #define SET_FREE_POINTER(new_value) \
-  (dynamic_space_free_pointer = (new_value))
+    (dynamic_space_free_pointer = (new_value))
 #define GET_GC_TRIGGER() current_auto_gc_trigger
 #define SET_GC_TRIGGER(new_value) \
     clear_auto_gc_trigger(); set_auto_gc_trigger(new_value);

diff --git a/src/runtime/alpha-arch.c b/src/runtime/alpha-arch.c
index e7cfd42..5abdf24 100644 (file)
--- a/src/runtime/alpha-arch.c
+++ b/src/runtime/alpha-arch.c
@@ -99,7 +99,7 @@ arch_skip_instruction(os_context_t *context)
 unsigned char *
 arch_internal_error_arguments(os_context_t *context)
 {
-  return (unsigned char *)(*os_context_pc_addr(context)+4);
+    return (unsigned char *)(*os_context_pc_addr(context)+4);
 }
 
 boolean
@@ -124,9 +124,9 @@ void arch_set_pseudo_atomic_interrupted(os_context_t *context)
      * didn't use that */
 
 #ifdef __linux__
-  *os_context_register_addr(context,reg_ALLOC) |=  (1L<<63);
+    *os_context_register_addr(context,reg_ALLOC) |=  (1L<<63);
 #else
-  *os_context_register_addr(context,reg_ALLOC) |=  2;
+    *os_context_register_addr(context,reg_ALLOC) |=  2;
 #endif
 }
 
@@ -144,11 +144,11 @@ unsigned long arch_install_breakpoint(void *pc)
 
 void arch_remove_breakpoint(void *pc, unsigned long orig_inst)
 {
-  /* was (unsigned int) but gcc complains.  Changed to mirror
-   * install_breakpoint() above */
-  unsigned long *ptr=(unsigned long *)pc;
-  *ptr = orig_inst;
-  os_flush_icache((os_vm_address_t)pc, sizeof(unsigned long));
+    /* was (unsigned int) but gcc complains.  Changed to mirror
+     * install_breakpoint() above */
+    unsigned long *ptr=(unsigned long *)pc;
+    *ptr = orig_inst;
+    os_flush_icache((os_vm_address_t)pc, sizeof(unsigned long));
 }
 
 static unsigned int *skipped_break_addr, displaced_after_inst,
@@ -156,75 +156,81 @@ static unsigned int *skipped_break_addr, displaced_after_inst,
 
 
 /* This returns a PC value.  Lisp code is all in the 32-bit-addressable
- * space,so we should be ok with an unsigned int. */
+ * space, so we should be ok with an unsigned int. */
 unsigned int
 emulate_branch(os_context_t *context,unsigned long orig_inst)
 {
-  int op = orig_inst >> 26;
-  int reg_a = (orig_inst >> 21) & 0x1f;
-  int reg_b = (orig_inst >> 16) & 0x1f;
-  int disp = (orig_inst&(1<<20)) ? orig_inst | (-1 << 21) : orig_inst&0x1fffff;
-  int next_pc = *os_context_pc_addr(context);
-  int branch = 0; /* was NULL;        */
-
-  switch(op) {
-  case 0x1a: /* jmp, jsr, jsr_coroutine, ret */
-    *os_context_register_addr(context,reg_a)=*os_context_pc_addr(context);
-    *os_context_pc_addr(context)=*os_context_register_addr(context,reg_b)& ~3;
-    break;
-  case 0x30: /* br */
-    *os_context_register_addr(context,reg_a)=*os_context_pc_addr(context);
-    branch = 1;
-    break;
-  case 0x31: /* fbeq */
-    if(*(os_context_fpregister_addr(context,reg_a))==0) branch = 1;
-    break;
-  case 0x32: /* fblt */
-    if(*os_context_fpregister_addr(context,reg_a)<0) branch = 1;
-    break;
-  case 0x33: /* fble */
-    if(*os_context_fpregister_addr(context,reg_a)<=0) branch = 1;
-    break;
-  case 0x34: /* bsr */
-    *os_context_register_addr(context,reg_a)=*os_context_pc_addr(context);
-    branch = 1;
-    break;
-  case 0x35: /* fbne */
-    if(*os_context_register_addr(context,reg_a)!=0) branch = 1;
-    break;
-  case 0x36: /* fbge */
-    if(*os_context_fpregister_addr(context,reg_a)>=0) branch = 1;
-    break;
-  case 0x37: /* fbgt */
-    if(*os_context_fpregister_addr(context,reg_a)>0) branch = 1;
-    break;
-  case 0x38: /* blbc */
-    if((*os_context_register_addr(context,reg_a)&1) == 0) branch = 1;
-    break;
-  case 0x39: /* beq */
-    if(*os_context_register_addr(context,reg_a)==0) branch = 1;
-    break;
-  case 0x3a: /* blt */
-    if(*os_context_register_addr(context,reg_a)<0) branch = 1;
-    break;
-  case 0x3b: /* ble */
-    if(*os_context_register_addr(context,reg_a)<=0) branch = 1;
-    break;
-  case 0x3c: /* blbs */
-    if((*os_context_register_addr(context,reg_a)&1)!=0) branch = 1;
-    break;
-  case 0x3d: /* bne */
-    if(*os_context_register_addr(context,reg_a)!=0) branch = 1;
-    break;
-  case 0x3e: /* bge */
-    if(*os_context_register_addr(context,reg_a)>=0) branch = 1;
-    break;
-  case 0x3f: /* bgt */
-    if(*os_context_register_addr(context,reg_a)>0) branch = 1;
-    break;
-  }
-  if(branch) next_pc += disp*4;
-  return next_pc;
+    int op = orig_inst >> 26;
+    int reg_a = (orig_inst >> 21) & 0x1f;
+    int reg_b = (orig_inst >> 16) & 0x1f;
+    int disp =
+       (orig_inst&(1<<20)) ?
+       orig_inst | (-1 << 21) :
+       orig_inst&0x1fffff;
+    int next_pc = *os_context_pc_addr(context);
+    int branch = 0; /* was NULL;              */
+
+    switch(op) {
+    case 0x1a: /* jmp, jsr, jsr_coroutine, ret */
+       *os_context_register_addr(context,reg_a) =
+           *os_context_pc_addr(context);
+       *os_context_pc_addr(context) =
+           *os_context_register_addr(context,reg_b)& ~3;
+       break;
+    case 0x30: /* br */
+       *os_context_register_addr(context,reg_a)=*os_context_pc_addr(context);
+       branch = 1;
+       break;
+    case 0x31: /* fbeq */
+       if(*(os_context_fpregister_addr(context,reg_a))==0) branch = 1;
+       break;
+    case 0x32: /* fblt */
+       if(*os_context_fpregister_addr(context,reg_a)<0) branch = 1;
+       break;
+    case 0x33: /* fble */
+       if(*os_context_fpregister_addr(context,reg_a)<=0) branch = 1;
+       break;
+    case 0x34: /* bsr */
+       *os_context_register_addr(context,reg_a)=*os_context_pc_addr(context);
+       branch = 1;
+       break;
+    case 0x35: /* fbne */
+       if(*os_context_register_addr(context,reg_a)!=0) branch = 1;
+       break;
+    case 0x36: /* fbge */
+       if(*os_context_fpregister_addr(context,reg_a)>=0) branch = 1;
+       break;
+    case 0x37: /* fbgt */
+       if(*os_context_fpregister_addr(context,reg_a)>0) branch = 1;
+       break;
+    case 0x38: /* blbc */
+       if((*os_context_register_addr(context,reg_a)&1) == 0) branch = 1;
+       break;
+    case 0x39: /* beq */
+       if(*os_context_register_addr(context,reg_a)==0) branch = 1;
+       break;
+    case 0x3a: /* blt */
+       if(*os_context_register_addr(context,reg_a)<0) branch = 1;
+       break;
+    case 0x3b: /* ble */
+       if(*os_context_register_addr(context,reg_a)<=0) branch = 1;
+       break;
+    case 0x3c: /* blbs */
+       if((*os_context_register_addr(context,reg_a)&1)!=0) branch = 1;
+       break;
+    case 0x3d: /* bne */
+       if(*os_context_register_addr(context,reg_a)!=0) branch = 1;
+       break;
+    case 0x3e: /* bge */
+       if(*os_context_register_addr(context,reg_a)>=0) branch = 1;
+       break;
+    case 0x3f: /* bgt */
+       if(*os_context_register_addr(context,reg_a)>0) branch = 1;
+       break;
+    }
+    if (branch)
+       next_pc += disp*4;
+    return next_pc;
 }
 
 static sigset_t orig_sigmask;
@@ -258,17 +264,17 @@ void arch_do_displaced_inst(os_context_t *context,unsigned int orig_inst)
      * at the BPT instruction itself.  This is good, because this is
      * where we want to restart execution when we do that */
 
-  unsigned int *pc=(unsigned int *)(*os_context_pc_addr(context));
-  unsigned int *next_pc;
-  int op = orig_inst >> 26;;
+    unsigned int *pc=(unsigned int *)(*os_context_pc_addr(context));
+    unsigned int *next_pc;
+    int op = orig_inst >> 26;;
 
-  orig_sigmask = *os_context_sigmask_addr(context);
-  sigaddset_blockable(os_context_sigmask_addr(context));
+    orig_sigmask = *os_context_sigmask_addr(context);
+    sigaddset_blockable(os_context_sigmask_addr(context));
 
-  /* Put the original instruction back. */
-  *pc = orig_inst;
-  os_flush_icache((os_vm_address_t)pc, sizeof(unsigned long));
-  skipped_break_addr = pc;
+    /* Put the original instruction back. */
+    *pc = orig_inst;
+    os_flush_icache((os_vm_address_t)pc, sizeof(unsigned long));
+    skipped_break_addr = pc;
 
     /* Figure out where we will end up after running the displaced 
      * instruction */
@@ -278,11 +284,11 @@ void arch_do_displaced_inst(os_context_t *context,unsigned int orig_inst)
     else
        next_pc = pc+1;
     
-  /* Set the after breakpoint. */
-  displaced_after_inst = *next_pc;
-  *next_pc = BREAKPOINT_INST;
-  after_breakpoint=1;
-  os_flush_icache((os_vm_address_t)next_pc, sizeof(unsigned long));
+    /* Set the after breakpoint. */
+    displaced_after_inst = *next_pc;
+    *next_pc = BREAKPOINT_INST;
+    after_breakpoint=1;
+    os_flush_icache((os_vm_address_t)next_pc, sizeof(unsigned long));
 }
 
 static void

diff --git a/src/runtime/backtrace.c b/src/runtime/backtrace.c
index 89bff2f..18f93a0 100644 (file)
--- a/src/runtime/backtrace.c
+++ b/src/runtime/backtrace.c
@@ -90,7 +90,6 @@ code_pointer(lispobj object)
 static boolean
 cs_valid_pointer_p(struct call_frame *pointer)
 {
-  /* lose("stub: hasn't been updated for X86"); */
     return (((char *) CONTROL_STACK_START <= (char *) pointer) &&
            ((char *) pointer < (char *) current_control_stack_pointer));
 }

diff --git a/src/runtime/breakpoint.c b/src/runtime/breakpoint.c
index 1ad416c..d69e9c2 100644 (file)
--- a/src/runtime/breakpoint.c
+++ b/src/runtime/breakpoint.c
@@ -93,14 +93,14 @@ static lispobj find_code(os_context_t *context)
 #ifdef __i386__
 static lispobj find_code(os_context_t *context)
 {
-  lispobj codeptr =
-      (lispobj)component_ptr_from_pc((lispobj *)(*os_context_pc_addr(context)));
-
-  if (codeptr == 0) {
-      return NIL;
-  } else {
-      return codeptr + OTHER_POINTER_LOWTAG;
-  }
+    lispobj codeptr =
+       (lispobj)component_ptr_from_pc((lispobj *)(*os_context_pc_addr(context)));
+
+    if (codeptr == 0) {
+       return NIL;
+    } else {
+       return codeptr + OTHER_POINTER_LOWTAG;
+    }
 }
 #endif
 

diff --git a/src/runtime/gc.c b/src/runtime/gc.c
index bf76596..47ed1b4 100644 (file)
--- a/src/runtime/gc.c
+++ b/src/runtime/gc.c
@@ -629,198 +629,198 @@ static lispobj trans_boxed(lispobj object);
 static int
 scav_fun_pointer(lispobj *where, lispobj object)
 {
-  lispobj  *first_pointer;
-  lispobj copy;
-  lispobj first;
-  int type;
+    lispobj  *first_pointer;
+    lispobj copy;
+    lispobj first;
+    int type;
 
-  gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
       
-  /* object is a pointer into from space. Not a FP */
-  first_pointer = (lispobj *) native_pointer(object);
-  first = *first_pointer;
+    /* object is a pointer into from space. Not a FP */
+    first_pointer = (lispobj *) native_pointer(object);
+    first = *first_pointer;
                
-  /* must transport object -- object may point */
-  /* to either a function header, a closure */
-  /* function header, or to a closure header. */
+    /* must transport object -- object may point */
+    /* to either a function header, a closure */
+    /* function header, or to a closure header. */
   
-  type = widetag_of(first);
-  switch (type) {
-  case SIMPLE_FUN_HEADER_WIDETAG:
-  case CLOSURE_FUN_HEADER_WIDETAG:
-    copy = trans_fun_header(object);
-    break;
-  default:
-    copy = trans_boxed(object);
-    break;
-  }
+    type = widetag_of(first);
+    switch (type) {
+    case SIMPLE_FUN_HEADER_WIDETAG:
+    case CLOSURE_FUN_HEADER_WIDETAG:
+       copy = trans_fun_header(object);
+       break;
+    default:
+       copy = trans_boxed(object);
+       break;
+    }
   
-  first = *first_pointer = copy;
+    first = *first_pointer = copy;
 
-  gc_assert(is_lisp_pointer(first));
-  gc_assert(!from_space_p(first));
+    gc_assert(is_lisp_pointer(first));
+    gc_assert(!from_space_p(first));
 
-  *where = first;
-  return 1;
+    *where = first;
+    return 1;
 }
 
 static struct code *
 trans_code(struct code *code)
 {
-       struct code *new_code;
-       lispobj first, l_code, l_new_code;
-       int nheader_words, ncode_words, nwords;
-       unsigned long displacement;
-       lispobj fheaderl, *prev_pointer;
+    struct code *new_code;
+    lispobj first, l_code, l_new_code;
+    int nheader_words, ncode_words, nwords;
+    unsigned long displacement;
+    lispobj fheaderl, *prev_pointer;
 
 #if defined(DEBUG_CODE_GC)
-       printf("\nTransporting code object located at 0x%08x.\n",
-              (unsigned long) code);
+    printf("\nTransporting code object located at 0x%08x.\n",
+          (unsigned long) code);
 #endif
 
-       /* if object has already been transported, just return pointer */
-       first = code->header;
-       if (is_lisp_pointer(first) && new_space_p(first)) {
+    /* if object has already been transported, just return pointer */
+    first = code->header;
+    if (is_lisp_pointer(first) && new_space_p(first)) {
 #ifdef DEBUG_CODE_GC
-           printf("Was already transported\n");
+       printf("Was already transported\n");
 #endif
-           return (struct code *) native_pointer(first);
-       }
+       return (struct code *) native_pointer(first);
+    }
        
-       gc_assert(widetag_of(first) == CODE_HEADER_WIDETAG);
+    gc_assert(widetag_of(first) == CODE_HEADER_WIDETAG);
 
-       /* prepare to transport the code vector */
-       l_code = (lispobj) LOW_WORD(code) | OTHER_POINTER_LOWTAG;
+    /* prepare to transport the code vector */
+    l_code = (lispobj) LOW_WORD(code) | OTHER_POINTER_LOWTAG;
 
-       ncode_words = fixnum_value(code->code_size);
-       nheader_words = HeaderValue(code->header);
-       nwords = ncode_words + nheader_words;
-       nwords = CEILING(nwords, 2);
+    ncode_words = fixnum_value(code->code_size);
+    nheader_words = HeaderValue(code->header);
+    nwords = ncode_words + nheader_words;
+    nwords = CEILING(nwords, 2);
 
-       l_new_code = copy_object(l_code, nwords);
-       new_code = (struct code *) native_pointer(l_new_code);
+    l_new_code = copy_object(l_code, nwords);
+    new_code = (struct code *) native_pointer(l_new_code);
 
-       displacement = l_new_code - l_code;
+    displacement = l_new_code - l_code;
 
 #if defined(DEBUG_CODE_GC)
-       printf("Old code object at 0x%08x, new code object at 0x%08x.\n",
-              (unsigned long) code, (unsigned long) new_code);
-       printf("Code object is %d words long.\n", nwords);
+    printf("Old code object at 0x%08x, new code object at 0x%08x.\n",
+          (unsigned long) code, (unsigned long) new_code);
+    printf("Code object is %d words long.\n", nwords);
 #endif
 
-       /* set forwarding pointer */
-       code->header = l_new_code;
+    /* set forwarding pointer */
+    code->header = l_new_code;
        
-       /* set forwarding pointers for all the function headers in the */
-       /* code object.  also fix all self pointers */
+    /* set forwarding pointers for all the function headers in the */
+    /* code object.  also fix all self pointers */
 
-       fheaderl = code->entry_points;
-       prev_pointer = &new_code->entry_points;
+    fheaderl = code->entry_points;
+    prev_pointer = &new_code->entry_points;
 
-       while (fheaderl != NIL) {
-               struct simple_fun *fheaderp, *nfheaderp;
-               lispobj nfheaderl;
+    while (fheaderl != NIL) {
+       struct simple_fun *fheaderp, *nfheaderp;
+       lispobj nfheaderl;
                
-               fheaderp = (struct simple_fun *) native_pointer(fheaderl);
-               gc_assert(widetag_of(fheaderp->header) == SIMPLE_FUN_HEADER_WIDETAG);
+       fheaderp = (struct simple_fun *) native_pointer(fheaderl);
+       gc_assert(widetag_of(fheaderp->header) == SIMPLE_FUN_HEADER_WIDETAG);
 
-               /* calcuate the new function pointer and the new */
-               /* function header */
-               nfheaderl = fheaderl + displacement;
-               nfheaderp = (struct simple_fun *) native_pointer(nfheaderl);
+       /* calcuate the new function pointer and the new */
+       /* function header */
+       nfheaderl = fheaderl + displacement;
+       nfheaderp = (struct simple_fun *) native_pointer(nfheaderl);
 
-               /* set forwarding pointer */
+       /* set forwarding pointer */
 #ifdef DEBUG_CODE_GC
-               printf("fheaderp->header (at %x) <- %x\n",
-                      &(fheaderp->header) , nfheaderl);
+       printf("fheaderp->header (at %x) <- %x\n",
+              &(fheaderp->header) , nfheaderl);
 #endif
-               fheaderp->header = nfheaderl;
+       fheaderp->header = nfheaderl;
                
-               /* fix self pointer */
-               nfheaderp->self = nfheaderl;
+       /* fix self pointer */
+       nfheaderp->self = nfheaderl;
 
-               *prev_pointer = nfheaderl;
+       *prev_pointer = nfheaderl;
 
-               fheaderl = fheaderp->next;
-               prev_pointer = &nfheaderp->next;
-       }
+       fheaderl = fheaderp->next;
+       prev_pointer = &nfheaderp->next;
+    }
 
 #ifndef MACH
-        os_flush_icache((os_vm_address_t) (((int *)new_code) + nheader_words),
-                       ncode_words * sizeof(int));
+    os_flush_icache((os_vm_address_t) (((int *)new_code) + nheader_words),
+                   ncode_words * sizeof(int));
 #endif
-       return new_code;
+    return new_code;
 }
 
 static int
 scav_code_header(lispobj *where, lispobj object)
 {
-       struct code *code;
-       int nheader_words, ncode_words, nwords;
-       lispobj fheaderl;
-       struct simple_fun *fheaderp;
+    struct code *code;
+    int nheader_words, ncode_words, nwords;
+    lispobj fheaderl;
+    struct simple_fun *fheaderp;
 
-       code = (struct code *) where;
-       ncode_words = fixnum_value(code->code_size);
-       nheader_words = HeaderValue(object);
-       nwords = ncode_words + nheader_words;
-       nwords = CEILING(nwords, 2);
+    code = (struct code *) where;
+    ncode_words = fixnum_value(code->code_size);
+    nheader_words = HeaderValue(object);
+    nwords = ncode_words + nheader_words;
+    nwords = CEILING(nwords, 2);
 
 #if defined(DEBUG_CODE_GC)
-       printf("\nScavening code object at 0x%08x.\n",
-              (unsigned long) where);
-       printf("Code object is %d words long.\n", nwords);
-       printf("Scavenging boxed section of code data block (%d words).\n",
-              nheader_words - 1);
-#endif
-
-       /* Scavenge the boxed section of the code data block */
-       scavenge(where + 1, nheader_words - 1);
-
-       /* Scavenge the boxed section of each function object in the */
-       /* code data block */
-       fheaderl = code->entry_points;
-       while (fheaderl != NIL) {
-               fheaderp = (struct simple_fun *) native_pointer(fheaderl);
-               gc_assert(widetag_of(fheaderp->header) == SIMPLE_FUN_HEADER_WIDETAG);
+    printf("\nScavening code object at 0x%08x.\n",
+          (unsigned long) where);
+    printf("Code object is %d words long.\n", nwords);
+    printf("Scavenging boxed section of code data block (%d words).\n",
+          nheader_words - 1);
+#endif
+
+    /* Scavenge the boxed section of the code data block */
+    scavenge(where + 1, nheader_words - 1);
+
+    /* Scavenge the boxed section of each function object in the */
+    /* code data block */
+    fheaderl = code->entry_points;
+    while (fheaderl != NIL) {
+       fheaderp = (struct simple_fun *) native_pointer(fheaderl);
+       gc_assert(widetag_of(fheaderp->header) == SIMPLE_FUN_HEADER_WIDETAG);
                
 #if defined(DEBUG_CODE_GC)
-               printf("Scavenging boxed section of entry point located at 0x%08x.\n",
-                      (unsigned long) native_pointer(fheaderl));
+       printf("Scavenging boxed section of entry point located at 0x%08x.\n",
+              (unsigned long) native_pointer(fheaderl));
 #endif
-               scavenge(&fheaderp->name, 1);
-               scavenge(&fheaderp->arglist, 1);
-               scavenge(&fheaderp->type, 1);
+       scavenge(&fheaderp->name, 1);
+       scavenge(&fheaderp->arglist, 1);
+       scavenge(&fheaderp->type, 1);
                
-               fheaderl = fheaderp->next;
-       }
+       fheaderl = fheaderp->next;
+    }
        
-       return nwords;
+    return nwords;
 }
 
 static lispobj
 trans_code_header(lispobj object)
 {
-       struct code *ncode;
+    struct code *ncode;
 
-       ncode = trans_code((struct code *) native_pointer(object));
-       return (lispobj) LOW_WORD(ncode) | OTHER_POINTER_LOWTAG;
+    ncode = trans_code((struct code *) native_pointer(object));
+    return (lispobj) LOW_WORD(ncode) | OTHER_POINTER_LOWTAG;
 }
 
 static int
 size_code_header(lispobj *where)
 {
-       struct code *code;
-       int nheader_words, ncode_words, nwords;
+    struct code *code;
+    int nheader_words, ncode_words, nwords;
 
-       code = (struct code *) where;
+    code = (struct code *) where;
        
-       ncode_words = fixnum_value(code->code_size);
-       nheader_words = HeaderValue(code->header);
-       nwords = ncode_words + nheader_words;
-       nwords = CEILING(nwords, 2);
+    ncode_words = fixnum_value(code->code_size);
+    nheader_words = HeaderValue(code->header);
+    nwords = ncode_words + nheader_words;
+    nwords = CEILING(nwords, 2);
 
-       return nwords;
+    return nwords;
 }
 
 
@@ -837,27 +837,27 @@ scav_return_pc_header(lispobj *where, lispobj object)
 static lispobj
 trans_return_pc_header(lispobj object)
 {
-       struct simple_fun *return_pc;
-       unsigned long offset;
-       struct code *code, *ncode;
-       lispobj ret;
-       return_pc = (struct simple_fun *) native_pointer(object);
-       offset = HeaderValue(return_pc->header)  * 4 ;
+    struct simple_fun *return_pc;
+    unsigned long offset;
+    struct code *code, *ncode;
+    lispobj ret;
+    return_pc = (struct simple_fun *) native_pointer(object);
+    offset = HeaderValue(return_pc->header)  * 4 ;
 
-       /* Transport the whole code object */
-       code = (struct code *) ((unsigned long) return_pc - offset);
+    /* Transport the whole code object */
+    code = (struct code *) ((unsigned long) return_pc - offset);
 #ifdef DEBUG_CODE_GC
-       printf("trans_return_pc_header object=%x, code=%lx\n",object,code);
+    printf("trans_return_pc_header object=%x, code=%lx\n",object,code);
 #endif
-       ncode = trans_code(code);
-       if(object==0x304748d7) {
-           /* monitor_or_something(); */
-       }
-       ret= ((lispobj) LOW_WORD(ncode) + offset) | OTHER_POINTER_LOWTAG;
+    ncode = trans_code(code);
+    if(object==0x304748d7) {
+       /* monitor_or_something(); */
+    }
+    ret= ((lispobj) LOW_WORD(ncode) + offset) | OTHER_POINTER_LOWTAG;
 #ifdef DEBUG_CODE_GC
-       printf("trans_return_pc_header returning %x\n",ret);
+    printf("trans_return_pc_header returning %x\n",ret);
 #endif
-       return ret;
+    return ret;
 }
 
 /* On the 386, closures hold a pointer to the raw address instead of
@@ -870,14 +870,14 @@ static
 scav_closure_header(where, object)
 lispobj *where, object;
 {
-       struct closure *closure;
-       lispobj fun;
+    struct closure *closure;
+    lispobj fun;
 
-       closure = (struct closure *)where;
-       fun = closure->fun - FUN_RAW_ADDR_OFFSET;
-       scavenge(&fun, 1);
+    closure = (struct closure *)where;
+    fun = closure->fun - FUN_RAW_ADDR_OFFSET;
+    scavenge(&fun, 1);
 
-       return 2;
+    return 2;
 }
 #endif
 
@@ -895,18 +895,18 @@ scav_fun_header(lispobj *where, lispobj object)
 static lispobj
 trans_fun_header(lispobj object)
 {
-       struct simple_fun *fheader;
-       unsigned long offset;
-       struct code *code, *ncode;
+    struct simple_fun *fheader;
+    unsigned long offset;
+    struct code *code, *ncode;
        
-       fheader = (struct simple_fun *) native_pointer(object);
-       offset = HeaderValue(fheader->header) * 4;
+    fheader = (struct simple_fun *) native_pointer(object);
+    offset = HeaderValue(fheader->header) * 4;
 
-       /* Transport the whole code object */
-       code = (struct code *) ((unsigned long) fheader - offset);
-       ncode = trans_code(code);
+    /* Transport the whole code object */
+    code = (struct code *) ((unsigned long) fheader - offset);
+    ncode = trans_code(code);
 
-       return ((lispobj) LOW_WORD(ncode) + offset) | FUN_POINTER_LOWTAG;
+    return ((lispobj) LOW_WORD(ncode) + offset) | FUN_POINTER_LOWTAG;
 }
 
 
@@ -916,13 +916,13 @@ trans_fun_header(lispobj object)
 static int
 scav_instance_pointer(lispobj *where, lispobj object)
 {
-  lispobj  *first_pointer;
+    lispobj  *first_pointer;
   
-  /* object is a pointer into from space.  Not a FP */
-  first_pointer = (lispobj *) native_pointer(object);
+    /* object is a pointer into from space.  Not a FP */
+    first_pointer = (lispobj *) native_pointer(object);
   
-  *where = *first_pointer = trans_boxed(object);
-  return 1;
+    *where = *first_pointer = trans_boxed(object);
+    return 1;
 }
 
 \f
@@ -933,71 +933,71 @@ static lispobj trans_list(lispobj object);
 static int
 scav_list_pointer(lispobj *where, lispobj object)
 {
-  lispobj first, *first_pointer;
+    lispobj first, *first_pointer;
 
-  gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
-  /* object is a pointer into from space.  Not a FP. */
-  first_pointer = (lispobj *) native_pointer(object);
+    /* object is a pointer into from space.  Not a FP. */
+    first_pointer = (lispobj *) native_pointer(object);
   
-  first = *first_pointer = trans_list(object);
+    first = *first_pointer = trans_list(object);
   
-  gc_assert(is_lisp_pointer(first));
-  gc_assert(!from_space_p(first));
+    gc_assert(is_lisp_pointer(first));
+    gc_assert(!from_space_p(first));
   
-  *where = first;
-  return 1;
+    *where = first;
+    return 1;
 }
 
 static lispobj
 trans_list(lispobj object)
 {
-       lispobj new_list_pointer;
-       struct cons *cons, *new_cons;
+    lispobj new_list_pointer;
+    struct cons *cons, *new_cons;
        
-       cons = (struct cons *) native_pointer(object);
+    cons = (struct cons *) native_pointer(object);
 
-       /* ### Don't use copy_object here. */
-       new_list_pointer = copy_object(object, 2);
-       new_cons = (struct cons *) native_pointer(new_list_pointer);
+    /* ### Don't use copy_object here. */
+    new_list_pointer = copy_object(object, 2);
+    new_cons = (struct cons *) native_pointer(new_list_pointer);
 
-       /* Set forwarding pointer. */
-       cons->car = new_list_pointer;
+    /* Set forwarding pointer. */
+    cons->car = new_list_pointer;
        
-       /* Try to linearize the list in the cdr direction to help reduce */
-       /* paging. */
+    /* Try to linearize the list in the cdr direction to help reduce */
+    /* paging. */
 
-       while (1) {
-               lispobj cdr, new_cdr, first;
-               struct cons *cdr_cons, *new_cdr_cons;
+    while (1) {
+       lispobj cdr, new_cdr, first;
+       struct cons *cdr_cons, *new_cdr_cons;
 
-               cdr = cons->cdr;
+       cdr = cons->cdr;
 
-                if (lowtag_of(cdr) != LIST_POINTER_LOWTAG ||
-                    !from_space_p(cdr) ||
-                    (is_lisp_pointer(first = *(lispobj *)native_pointer(cdr))
-                    && new_space_p(first)))
-                       break;
+       if (lowtag_of(cdr) != LIST_POINTER_LOWTAG ||
+           !from_space_p(cdr) ||
+           (is_lisp_pointer(first = *(lispobj *)native_pointer(cdr))
+            && new_space_p(first)))
+           break;
 
-               cdr_cons = (struct cons *) native_pointer(cdr);
+       cdr_cons = (struct cons *) native_pointer(cdr);
 
-               /* ### Don't use copy_object here */
-               new_cdr = copy_object(cdr, 2);
-               new_cdr_cons = (struct cons *) native_pointer(new_cdr);
+       /* ### Don't use copy_object here */
+       new_cdr = copy_object(cdr, 2);
+       new_cdr_cons = (struct cons *) native_pointer(new_cdr);
 
-               /* Set forwarding pointer */
-               cdr_cons->car = new_cdr;
+       /* Set forwarding pointer */
+       cdr_cons->car = new_cdr;
 
-               /* Update the cdr of the last cons copied into new */
-               /* space to keep the newspace scavenge from having to */
-               /* do it. */
-               new_cons->cdr = new_cdr;
+       /* Update the cdr of the last cons copied into new */
+       /* space to keep the newspace scavenge from having to */
+       /* do it. */
+       new_cons->cdr = new_cdr;
                
-               cons = cdr_cons;
-               new_cons = new_cdr_cons;
-       }
+       cons = cdr_cons;
+       new_cons = new_cdr_cons;
+    }
 
-       return new_list_pointer;
+    return new_list_pointer;
 }
 
 \f
@@ -1006,19 +1006,19 @@ trans_list(lispobj object)
 static int
 scav_other_pointer(lispobj *where, lispobj object)
 {
-  lispobj first, *first_pointer;
+    lispobj first, *first_pointer;
 
-  gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
-  /* Object is a pointer into from space - not a FP */
-  first_pointer = (lispobj *) native_pointer(object);
-  first = *first_pointer = (transother[widetag_of(*first_pointer)])(object);
+    /* Object is a pointer into from space - not a FP */
+    first_pointer = (lispobj *) native_pointer(object);
+    first = *first_pointer = (transother[widetag_of(*first_pointer)])(object);
 
-  gc_assert(is_lisp_pointer(first));
-  gc_assert(!from_space_p(first));
+    gc_assert(is_lisp_pointer(first));
+    gc_assert(!from_space_p(first));
 
-  *where = first;
-  return 1;
+    *where = first;
+    return 1;
 }
 
 \f
@@ -1060,29 +1060,29 @@ scav_boxed(lispobj *where, lispobj object)
 static lispobj
 trans_boxed(lispobj object)
 {
-       lispobj header;
-       unsigned long length;
+    lispobj header;
+    unsigned long length;
 
-       gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
-       header = *((lispobj *) native_pointer(object));
-       length = HeaderValue(header) + 1;
-       length = CEILING(length, 2);
+    header = *((lispobj *) native_pointer(object));
+    length = HeaderValue(header) + 1;
+    length = CEILING(length, 2);
 
-       return copy_object(object, length);
+    return copy_object(object, length);
 }
 
 static int
 size_boxed(lispobj *where)
 {
-       lispobj header;
-       unsigned long length;
+    lispobj header;
+    unsigned long length;
 
-       header = *where;
-       length = HeaderValue(header) + 1;
-       length = CEILING(length, 2);
+    header = *where;
+    length = HeaderValue(header) + 1;
+    length = CEILING(length, 2);
 
-       return length;
+    return length;
 }
 
 /* Note: on the sparc we don't have to do anything special for fdefns, */
@@ -1110,41 +1110,41 @@ scav_fdefn(lispobj *where, lispobj object)
 static int
 scav_unboxed(lispobj *where, lispobj object)
 {
-       unsigned long length;
+    unsigned long length;
 
-       length = HeaderValue(object) + 1;
-       length = CEILING(length, 2);
+    length = HeaderValue(object) + 1;
+    length = CEILING(length, 2);
 
-       return length;
+    return length;
 }
 
 static lispobj
 trans_unboxed(lispobj object)
 {
-       lispobj header;
-       unsigned long length;
+    lispobj header;
+    unsigned long length;
 
 
-       gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
-       header = *((lispobj *) native_pointer(object));
-       length = HeaderValue(header) + 1;
-       length = CEILING(length, 2);
+    header = *((lispobj *) native_pointer(object));
+    length = HeaderValue(header) + 1;
+    length = CEILING(length, 2);
 
-       return copy_object(object, length);
+    return copy_object(object, length);
 }
 
 static int
 size_unboxed(lispobj *where)
 {
-       lispobj header;
-       unsigned long length;
+    lispobj header;
+    unsigned long length;
 
-       header = *where;
-       length = HeaderValue(header) + 1;
-       length = CEILING(length, 2);
+    header = *where;
+    length = HeaderValue(header) + 1;
+    length = CEILING(length, 2);
 
-       return length;
+    return length;
 }
 
 \f
@@ -1155,51 +1155,51 @@ size_unboxed(lispobj *where)
 static int
 scav_string(lispobj *where, lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       /* NOTE: Strings contain one more byte of data than the length */
-       /* slot indicates. */
+    /* NOTE: Strings contain one more byte of data than the length */
+    /* slot indicates. */
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length) + 1;
-       nwords = CEILING(NWORDS(length, 4) + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length) + 1;
+    nwords = CEILING(NWORDS(length, 4) + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 static lispobj
 trans_string(lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
-       /* NOTE: Strings contain one more byte of data than the length */
-       /* slot indicates. */
+    /* NOTE: Strings contain one more byte of data than the length */
+    /* slot indicates. */
 
-       vector = (struct vector *) native_pointer(object);
-       length = fixnum_value(vector->length) + 1;
-       nwords = CEILING(NWORDS(length, 4) + 2, 2);
+    vector = (struct vector *) native_pointer(object);
+    length = fixnum_value(vector->length) + 1;
+    nwords = CEILING(NWORDS(length, 4) + 2, 2);
 
-       return copy_object(object, nwords);
+    return copy_object(object, nwords);
 }
 
 static int
 size_string(lispobj *where)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       /* NOTE: Strings contain one more byte of data than the length */
-       /* slot indicates. */
+    /* NOTE: Strings contain one more byte of data than the length */
+    /* slot indicates. */
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length) + 1;
-       nwords = CEILING(NWORDS(length, 4) + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length) + 1;
+    nwords = CEILING(NWORDS(length, 4) + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 static int
@@ -1217,366 +1217,365 @@ scav_vector(lispobj *where, lispobj object)
 static lispobj
 trans_vector(lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
-       vector = (struct vector *) native_pointer(object);
+    vector = (struct vector *) native_pointer(object);
 
-       length = fixnum_value(vector->length);
-       nwords = CEILING(length + 2, 2);
+    length = fixnum_value(vector->length);
+    nwords = CEILING(length + 2, 2);
 
-       return copy_object(object, nwords);
+    return copy_object(object, nwords);
 }
 
 static int
 size_vector(lispobj *where)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(length + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(length + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 
 static int
 scav_vector_bit(lispobj *where, lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(NWORDS(length, 32) + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(NWORDS(length, 32) + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 static lispobj
 trans_vector_bit(lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
-       vector = (struct vector *) native_pointer(object);
-       length = fixnum_value(vector->length);
-       nwords = CEILING(NWORDS(length, 32) + 2, 2);
+    vector = (struct vector *) native_pointer(object);
+    length = fixnum_value(vector->length);
+    nwords = CEILING(NWORDS(length, 32) + 2, 2);
 
-       return copy_object(object, nwords);
+    return copy_object(object, nwords);
 }
 
 static int
 size_vector_bit(lispobj *where)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(NWORDS(length, 32) + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(NWORDS(length, 32) + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 
 static int
 scav_vector_unsigned_byte_2(lispobj *where, lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(NWORDS(length, 16) + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(NWORDS(length, 16) + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 static lispobj
 trans_vector_unsigned_byte_2(lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
-       vector = (struct vector *) native_pointer(object);
-       length = fixnum_value(vector->length);
-       nwords = CEILING(NWORDS(length, 16) + 2, 2);
+    vector = (struct vector *) native_pointer(object);
+    length = fixnum_value(vector->length);
+    nwords = CEILING(NWORDS(length, 16) + 2, 2);
 
-       return copy_object(object, nwords);
+    return copy_object(object, nwords);
 }
 
 static int
 size_vector_unsigned_byte_2(lispobj *where)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(NWORDS(length, 16) + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(NWORDS(length, 16) + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 
 static int
 scav_vector_unsigned_byte_4(lispobj *where, lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(NWORDS(length, 8) + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(NWORDS(length, 8) + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 static lispobj
 trans_vector_unsigned_byte_4(lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
-       vector = (struct vector *) native_pointer(object);
-       length = fixnum_value(vector->length);
-       nwords = CEILING(NWORDS(length, 8) + 2, 2);
+    vector = (struct vector *) native_pointer(object);
+    length = fixnum_value(vector->length);
+    nwords = CEILING(NWORDS(length, 8) + 2, 2);
 
-       return copy_object(object, nwords);
+    return copy_object(object, nwords);
 }
 
 static int
 size_vector_unsigned_byte_4(lispobj *where)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(NWORDS(length, 8) + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(NWORDS(length, 8) + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 
 static int
 scav_vector_unsigned_byte_8(lispobj *where, lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(NWORDS(length, 4) + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(NWORDS(length, 4) + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 static lispobj
 trans_vector_unsigned_byte_8(lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
-       vector = (struct vector *) native_pointer(object);
-       length = fixnum_value(vector->length);
-       nwords = CEILING(NWORDS(length, 4) + 2, 2);
+    vector = (struct vector *) native_pointer(object);
+    length = fixnum_value(vector->length);
+    nwords = CEILING(NWORDS(length, 4) + 2, 2);
 
-       return copy_object(object, nwords);
+    return copy_object(object, nwords);
 }
 
 static int
 size_vector_unsigned_byte_8(lispobj *where)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(NWORDS(length, 4) + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(NWORDS(length, 4) + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 
 static int
 scav_vector_unsigned_byte_16(lispobj *where, lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(NWORDS(length, 2) + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(NWORDS(length, 2) + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 static lispobj
 trans_vector_unsigned_byte_16(lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
-       vector = (struct vector *) native_pointer(object);
-       length = fixnum_value(vector->length);
-       nwords = CEILING(NWORDS(length, 2) + 2, 2);
+    vector = (struct vector *) native_pointer(object);
+    length = fixnum_value(vector->length);
+    nwords = CEILING(NWORDS(length, 2) + 2, 2);
 
-       return copy_object(object, nwords);
+    return copy_object(object, nwords);
 }
 
 static int
 size_vector_unsigned_byte_16(lispobj *where)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(NWORDS(length, 2) + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(NWORDS(length, 2) + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 
 static int
 scav_vector_unsigned_byte_32(lispobj *where, lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(length + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(length + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 static lispobj
 trans_vector_unsigned_byte_32(lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
-       vector = (struct vector *) native_pointer(object);
-       length = fixnum_value(vector->length);
-       nwords = CEILING(length + 2, 2);
+    vector = (struct vector *) native_pointer(object);
+    length = fixnum_value(vector->length);
+    nwords = CEILING(length + 2, 2);
 
-       return copy_object(object, nwords);
+    return copy_object(object, nwords);
 }
 
 static int
 size_vector_unsigned_byte_32(lispobj *where)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(length + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(length + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
-
 static int
 scav_vector_single_float(lispobj *where, lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(length + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(length + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 static lispobj
 trans_vector_single_float(lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
-       vector = (struct vector *) native_pointer(object);
-       length = fixnum_value(vector->length);
-       nwords = CEILING(length + 2, 2);
+    vector = (struct vector *) native_pointer(object);
+    length = fixnum_value(vector->length);
+    nwords = CEILING(length + 2, 2);
 
-       return copy_object(object, nwords);
+    return copy_object(object, nwords);
 }
 
 static int
 size_vector_single_float(lispobj *where)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(length + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(length + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 
 static int
 scav_vector_double_float(lispobj *where, lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(length * 2 + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(length * 2 + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 static lispobj
 trans_vector_double_float(lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
-       vector = (struct vector *) native_pointer(object);
-       length = fixnum_value(vector->length);
-       nwords = CEILING(length * 2 + 2, 2);
+    vector = (struct vector *) native_pointer(object);
+    length = fixnum_value(vector->length);
+    nwords = CEILING(length * 2 + 2, 2);
 
-       return copy_object(object, nwords);
+    return copy_object(object, nwords);
 }
 
 static int
 size_vector_double_float(lispobj *where)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(length * 2 + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(length * 2 + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 
@@ -1584,48 +1583,48 @@ size_vector_double_float(lispobj *where)
 static int
 scav_vector_long_float(lispobj *where, lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
 #ifdef sparc
-       nwords = CEILING(length * 4 + 2, 2);
+    nwords = CEILING(length * 4 + 2, 2);
 #endif
 
-       return nwords;
+    return nwords;
 }
 
 static lispobj
 trans_vector_long_float(lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
-       vector = (struct vector *) native_pointer(object);
-       length = fixnum_value(vector->length);
+    vector = (struct vector *) native_pointer(object);
+    length = fixnum_value(vector->length);
 #ifdef sparc
-       nwords = CEILING(length * 4 + 2, 2);
+    nwords = CEILING(length * 4 + 2, 2);
 #endif
 
-       return copy_object(object, nwords);
+    return copy_object(object, nwords);
 }
 
 static int
 size_vector_long_float(lispobj *where)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
 #ifdef sparc
-       nwords = CEILING(length * 4 + 2, 2);
+    nwords = CEILING(length * 4 + 2, 2);
 #endif
 
-       return nwords;
+    return nwords;
 }
 #endif
 
@@ -1634,42 +1633,42 @@ size_vector_long_float(lispobj *where)
 static int
 scav_vector_complex_single_float(lispobj *where, lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(length * 2 + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(length * 2 + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 static lispobj
 trans_vector_complex_single_float(lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
-       vector = (struct vector *) native_pointer(object);
-       length = fixnum_value(vector->length);
-       nwords = CEILING(length * 2 + 2, 2);
+    vector = (struct vector *) native_pointer(object);
+    length = fixnum_value(vector->length);
+    nwords = CEILING(length * 2 + 2, 2);
 
-       return copy_object(object, nwords);
+    return copy_object(object, nwords);
 }
 
 static int
 size_vector_complex_single_float(lispobj *where)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(length * 2 + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(length * 2 + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 #endif
 
@@ -1677,42 +1676,42 @@ size_vector_complex_single_float(lispobj *where)
 static int
 scav_vector_complex_double_float(lispobj *where, lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(length * 4 + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(length * 4 + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 
 static lispobj
 trans_vector_complex_double_float(lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
-       vector = (struct vector *) native_pointer(object);
-       length = fixnum_value(vector->length);
-       nwords = CEILING(length * 4 + 2, 2);
+    vector = (struct vector *) native_pointer(object);
+    length = fixnum_value(vector->length);
+    nwords = CEILING(length * 4 + 2, 2);
 
-       return copy_object(object, nwords);
+    return copy_object(object, nwords);
 }
 
 static int
 size_vector_complex_double_float(lispobj *where)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
-       nwords = CEILING(length * 4 + 2, 2);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
+    nwords = CEILING(length * 4 + 2, 2);
 
-       return nwords;
+    return nwords;
 }
 #endif
 
@@ -1720,48 +1719,48 @@ size_vector_complex_double_float(lispobj *where)
 static int
 scav_vector_complex_long_float(lispobj *where, lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
 #ifdef sparc
-       nwords = CEILING(length * 8 + 2, 2);
+    nwords = CEILING(length * 8 + 2, 2);
 #endif
 
-       return nwords;
+    return nwords;
 }
 
 static lispobj
 trans_vector_complex_long_float(lispobj object)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
-       vector = (struct vector *) native_pointer(object);
-       length = fixnum_value(vector->length);
+    vector = (struct vector *) native_pointer(object);
+    length = fixnum_value(vector->length);
 #ifdef sparc
-       nwords = CEILING(length * 8 + 2, 2);
+    nwords = CEILING(length * 8 + 2, 2);
 #endif
 
-       return copy_object(object, nwords);
+    return copy_object(object, nwords);
 }
 
 static int
 size_vector_complex_long_float(lispobj *where)
 {
-       struct vector *vector;
-       int length, nwords;
+    struct vector *vector;
+    int length, nwords;
 
-       vector = (struct vector *) where;
-       length = fixnum_value(vector->length);
+    vector = (struct vector *) where;
+    length = fixnum_value(vector->length);
 #ifdef sparc
-       nwords = CEILING(length * 8 + 2, 2);
+    nwords = CEILING(length * 8 + 2, 2);
 #endif
 
-       return nwords;
+    return nwords;
 }
 #endif
 
@@ -1774,83 +1773,83 @@ size_vector_complex_long_float(lispobj *where)
 static int
 scav_weak_pointer(lispobj *where, lispobj object)
 {
-       /* Do not let GC scavenge the value slot of the weak pointer */
-       /* (that is why it is a weak pointer).  Note:  we could use */
-       /* the scav_unboxed method here. */
+    /* Do not let GC scavenge the value slot of the weak pointer */
+    /* (that is why it is a weak pointer).  Note:  we could use */
+    /* the scav_unboxed method here. */
 
-       return WEAK_POINTER_NWORDS;
+    return WEAK_POINTER_NWORDS;
 }
 
 static lispobj
 trans_weak_pointer(lispobj object)
 {
-       lispobj copy;
-       struct weak_pointer *wp;
+    lispobj copy;
+    struct weak_pointer *wp;
 
-       gc_assert(is_lisp_pointer(object));
+    gc_assert(is_lisp_pointer(object));
 
 #if defined(DEBUG_WEAK)
-       printf("Transporting weak pointer from 0x%08x\n", object);
+    printf("Transporting weak pointer from 0x%08x\n", object);
 #endif
 
-       /* Need to remember where all the weak pointers are that have */
-       /* been transported so they can be fixed up in a post-GC pass. */
+    /* Need to remember where all the weak pointers are that have */
+    /* been transported so they can be fixed up in a post-GC pass. */
 
-       copy = copy_object(object, WEAK_POINTER_NWORDS);
-       wp = (struct weak_pointer *) native_pointer(copy);
+    copy = copy_object(object, WEAK_POINTER_NWORDS);
+    wp = (struct weak_pointer *) native_pointer(copy);
        
 
-       /* Push the weak pointer onto the list of weak pointers. */
-       wp->next = LOW_WORD(weak_pointers);
-       weak_pointers = wp;
+    /* Push the weak pointer onto the list of weak pointers. */
+    wp->next = LOW_WORD(weak_pointers);
+    weak_pointers = wp;
 
-       return copy;
+    return copy;
 }
 
 static int
 size_weak_pointer(lispobj *where)
 {
-       return WEAK_POINTER_NWORDS;
+    return WEAK_POINTER_NWORDS;
 }
 
 void scan_weak_pointers(void)
 {
-       struct weak_pointer *wp;
+    struct weak_pointer *wp;
 
-       for (wp = weak_pointers; wp != (struct weak_pointer *) NULL;
-            wp = (struct weak_pointer *)((unsigned long)wp->next)) {
-               lispobj value;
-               lispobj first, *first_pointer;
+    for (wp = weak_pointers; wp != (struct weak_pointer *) NULL;
+        wp = (struct weak_pointer *)((unsigned long)wp->next)) {
+       lispobj value;
+       lispobj first, *first_pointer;
 
-               value = wp->value;
+       value = wp->value;
 
 #if defined(DEBUG_WEAK)
-               printf("Weak pointer at 0x%p\n",  wp);
-               printf("Value: 0x%08x\n", (unsigned int) value);
+       printf("Weak pointer at 0x%p\n",  wp);
+       printf("Value: 0x%08x\n", (unsigned int) value);
 #endif         
 
-               if (!(is_lisp_pointer(value) && from_space_p(value)))
-                       continue;
+       if (!(is_lisp_pointer(value) && from_space_p(value)))
+           continue;
 
-               /* Now, we need to check if the object has been */
-               /* forwarded.  If it has been, the weak pointer is */
-               /* still good and needs to be updated.  Otherwise, the */
-               /* weak pointer needs to be nil'ed out. */
+       /* Now, we need to check if the object has been */
+       /* forwarded.  If it has been, the weak pointer is */
+       /* still good and needs to be updated.  Otherwise, the */
+       /* weak pointer needs to be nil'ed out. */
 
-               first_pointer = (lispobj *) native_pointer(value);
-               first = *first_pointer;
+       first_pointer = (lispobj *) native_pointer(value);
+       first = *first_pointer;
                
 #if defined(DEBUG_WEAK)
-               printf("First: 0x%08x\n", (unsigned long) first);
+       printf("First: 0x%08x\n", (unsigned long) first);
 #endif         
 
-               if (is_lisp_pointer(first) && new_space_p(first))
-                       wp->value = first;
-               else {
-                       wp->value = NIL;
-                       wp->broken = T;
-               }
+       if (is_lisp_pointer(first) && new_space_p(first))
+           wp->value = first;
+       else {
+           wp->value = NIL;
+           wp->broken = T;
        }
+    }
 }
 
 
@@ -1878,11 +1877,11 @@ trans_lose(lispobj object)
 static int
 size_lose(lispobj *where)
 {
-       fprintf(stderr, "Size lossage.  No size function for object at 0x%p\n",
-               where);
-       fprintf(stderr, "First word of object: 0x%08x\n",
-               (u32) *where);
-       return 1;
+    fprintf(stderr, "Size lossage.  No size function for object at 0x%p\n",
+           where);
+    fprintf(stderr, "First word of object: 0x%08x\n",
+           (u32) *where);
+    return 1;
 }
 
 /* KLUDGE: SBCL already has two GC implementations, and if someday the
@@ -1893,307 +1892,307 @@ size_lose(lispobj *where)
 void
 gc_init(void)
 {
-       int i;
-
-       /* scavenge table */
-       for (i = 0; i < 256; i++)
-           scavtab[i] = scav_lose; 
-       /* scavtab[i] = scav_immediate; */
-
-       for (i = 0; i < 32; i++) {
-               scavtab[EVEN_FIXNUM_LOWTAG|(i<<3)] = scav_immediate;
-               scavtab[FUN_POINTER_LOWTAG|(i<<3)] = scav_fun_pointer;
-               /* skipping OTHER_IMMEDIATE_0_LOWTAG */
-               scavtab[LIST_POINTER_LOWTAG|(i<<3)] = scav_list_pointer;
-               scavtab[ODD_FIXNUM_LOWTAG|(i<<3)] = scav_immediate;
-               scavtab[INSTANCE_POINTER_LOWTAG|(i<<3)] =scav_instance_pointer;
-               /* skipping OTHER_IMMEDIATE_1_LOWTAG */
-               scavtab[OTHER_POINTER_LOWTAG|(i<<3)] = scav_other_pointer;
-       }
+    int i;
+
+    /* scavenge table */
+    for (i = 0; i < 256; i++)
+       scavtab[i] = scav_lose; 
+    /* scavtab[i] = scav_immediate; */
+
+    for (i = 0; i < 32; i++) {
+       scavtab[EVEN_FIXNUM_LOWTAG|(i<<3)] = scav_immediate;
+       scavtab[FUN_POINTER_LOWTAG|(i<<3)] = scav_fun_pointer;
+       /* skipping OTHER_IMMEDIATE_0_LOWTAG */
+       scavtab[LIST_POINTER_LOWTAG|(i<<3)] = scav_list_pointer;
+       scavtab[ODD_FIXNUM_LOWTAG|(i<<3)] = scav_immediate;
+       scavtab[INSTANCE_POINTER_LOWTAG|(i<<3)] =scav_instance_pointer;
+       /* skipping OTHER_IMMEDIATE_1_LOWTAG */
+       scavtab[OTHER_POINTER_LOWTAG|(i<<3)] = scav_other_pointer;
+    }
 
-       scavtab[BIGNUM_WIDETAG] = scav_unboxed;
-       scavtab[RATIO_WIDETAG] = scav_boxed;
-       scavtab[SINGLE_FLOAT_WIDETAG] = scav_unboxed;
-       scavtab[DOUBLE_FLOAT_WIDETAG] = scav_unboxed;
+    scavtab[BIGNUM_WIDETAG] = scav_unboxed;
+    scavtab[RATIO_WIDETAG] = scav_boxed;
+    scavtab[SINGLE_FLOAT_WIDETAG] = scav_unboxed;
+    scavtab[DOUBLE_FLOAT_WIDETAG] = scav_unboxed;
 #ifdef LONG_FLOAT_WIDETAG
-       scavtab[LONG_FLOAT_WIDETAG] = scav_unboxed;
+    scavtab[LONG_FLOAT_WIDETAG] = scav_unboxed;
 #endif
-       scavtab[COMPLEX_WIDETAG] = scav_boxed;
+    scavtab[COMPLEX_WIDETAG] = scav_boxed;
 #ifdef COMPLEX_SINGLE_FLOAT_WIDETAG
-       scavtab[COMPLEX_SINGLE_FLOAT_WIDETAG] = scav_unboxed;
+    scavtab[COMPLEX_SINGLE_FLOAT_WIDETAG] = scav_unboxed;
 #endif
 #ifdef COMPLEX_DOUBLE_FLOAT_WIDETAG
-       scavtab[COMPLEX_DOUBLE_FLOAT_WIDETAG] = scav_unboxed;
+    scavtab[COMPLEX_DOUBLE_FLOAT_WIDETAG] = scav_unboxed;
 #endif
 #ifdef COMPLEX_LONG_FLOAT_WIDETAG
-       scavtab[COMPLEX_LONG_FLOAT_WIDETAG] = scav_unboxed;
-#endif
-       scavtab[SIMPLE_ARRAY_WIDETAG] = scav_boxed;
-       scavtab[SIMPLE_STRING_WIDETAG] = scav_string;
-       scavtab[SIMPLE_BIT_VECTOR_WIDETAG] = scav_vector_bit;
-       scavtab[SIMPLE_VECTOR_WIDETAG] = scav_vector;
-       scavtab[SIMPLE_ARRAY_UNSIGNED_BYTE_2_WIDETAG] =
-           scav_vector_unsigned_byte_2;
-       scavtab[SIMPLE_ARRAY_UNSIGNED_BYTE_4_WIDETAG] =
-           scav_vector_unsigned_byte_4;
-       scavtab[SIMPLE_ARRAY_UNSIGNED_BYTE_8_WIDETAG] =
-           scav_vector_unsigned_byte_8;
-       scavtab[SIMPLE_ARRAY_UNSIGNED_BYTE_16_WIDETAG] =
-           scav_vector_unsigned_byte_16;
-       scavtab[SIMPLE_ARRAY_UNSIGNED_BYTE_32_WIDETAG] =
-           scav_vector_unsigned_byte_32;
+    scavtab[COMPLEX_LONG_FLOAT_WIDETAG] = scav_unboxed;
+#endif
+    scavtab[SIMPLE_ARRAY_WIDETAG] = scav_boxed;
+    scavtab[SIMPLE_STRING_WIDETAG] = scav_string;
+    scavtab[SIMPLE_BIT_VECTOR_WIDETAG] = scav_vector_bit;
+    scavtab[SIMPLE_VECTOR_WIDETAG] = scav_vector;
+    scavtab[SIMPLE_ARRAY_UNSIGNED_BYTE_2_WIDETAG] =
+       scav_vector_unsigned_byte_2;
+    scavtab[SIMPLE_ARRAY_UNSIGNED_BYTE_4_WIDETAG] =
+       scav_vector_unsigned_byte_4;
+    scavtab[SIMPLE_ARRAY_UNSIGNED_BYTE_8_WIDETAG] =
+       scav_vector_unsigned_byte_8;
+    scavtab[SIMPLE_ARRAY_UNSIGNED_BYTE_16_WIDETAG] =
+       scav_vector_unsigned_byte_16;
+    scavtab[SIMPLE_ARRAY_UNSIGNED_BYTE_32_WIDETAG] =
+       scav_vector_unsigned_byte_32;
 #ifdef SIMPLE_ARRAY_SIGNED_BYTE_8_WIDETAG
-       scavtab[SIMPLE_ARRAY_SIGNED_BYTE_8_WIDETAG] =
-           scav_vector_unsigned_byte_8;
+    scavtab[SIMPLE_ARRAY_SIGNED_BYTE_8_WIDETAG] =
+       scav_vector_unsigned_byte_8;
 #endif
 #ifdef SIMPLE_ARRAY_SIGNED_BYTE_16_WIDETAG
-       scavtab[SIMPLE_ARRAY_SIGNED_BYTE_16_WIDETAG] =
-           scav_vector_unsigned_byte_16;
+    scavtab[SIMPLE_ARRAY_SIGNED_BYTE_16_WIDETAG] =
+       scav_vector_unsigned_byte_16;
 #endif
 #ifdef SIMPLE_ARRAY_SIGNED_BYTE_30_WIDETAG
-       scavtab[SIMPLE_ARRAY_SIGNED_BYTE_30_WIDETAG] =
-           scav_vector_unsigned_byte_32;
+    scavtab[SIMPLE_ARRAY_SIGNED_BYTE_30_WIDETAG] =
+       scav_vector_unsigned_byte_32;
 #endif
 #ifdef SIMPLE_ARRAY_SIGNED_BYTE_32_WIDETAG
-       scavtab[SIMPLE_ARRAY_SIGNED_BYTE_32_WIDETAG] =
-           scav_vector_unsigned_byte_32;
+    scavtab[SIMPLE_ARRAY_SIGNED_BYTE_32_WIDETAG] =
+       scav_vector_unsigned_byte_32;
 #endif
-       scavtab[SIMPLE_ARRAY_SINGLE_FLOAT_WIDETAG] = scav_vector_single_float;
-       scavtab[SIMPLE_ARRAY_DOUBLE_FLOAT_WIDETAG] = scav_vector_double_float;
+    scavtab[SIMPLE_ARRAY_SINGLE_FLOAT_WIDETAG] = scav_vector_single_float;
+    scavtab[SIMPLE_ARRAY_DOUBLE_FLOAT_WIDETAG] = scav_vector_double_float;
 #ifdef SIMPLE_ARRAY_LONG_FLOAT_WIDETAG
-       scavtab[SIMPLE_ARRAY_LONG_FLOAT_WIDETAG] = scav_vector_long_float;
+    scavtab[SIMPLE_ARRAY_LONG_FLOAT_WIDETAG] = scav_vector_long_float;
 #endif
 #ifdef SIMPLE_ARRAY_COMPLEX_SINGLE_FLOAT_WIDETAG
-       scavtab[SIMPLE_ARRAY_COMPLEX_SINGLE_FLOAT_WIDETAG] =
-           scav_vector_complex_single_float;
+    scavtab[SIMPLE_ARRAY_COMPLEX_SINGLE_FLOAT_WIDETAG] =
+       scav_vector_complex_single_float;
 #endif
 #ifdef SIMPLE_ARRAY_COMPLEX_DOUBLE_FLOAT_WIDETAG
-       scavtab[SIMPLE_ARRAY_COMPLEX_DOUBLE_FLOAT_WIDETAG] =
-           scav_vector_complex_double_float;
+    scavtab[SIMPLE_ARRAY_COMPLEX_DOUBLE_FLOAT_WIDETAG] =
+       scav_vector_complex_double_float;
 #endif
 #ifdef SIMPLE_ARRAY_COMPLEX_LONG_FLOAT_WIDETAG
-       scavtab[SIMPLE_ARRAY_COMPLEX_LONG_FLOAT_WIDETAG] =
-           scav_vector_complex_long_float;
-#endif
-       scavtab[COMPLEX_STRING_WIDETAG] = scav_boxed;
-       scavtab[COMPLEX_BIT_VECTOR_WIDETAG] = scav_boxed;
-       scavtab[COMPLEX_VECTOR_WIDETAG] = scav_boxed;
-       scavtab[COMPLEX_ARRAY_WIDETAG] = scav_boxed;
-       scavtab[CODE_HEADER_WIDETAG] = scav_code_header;
-       scavtab[SIMPLE_FUN_HEADER_WIDETAG] = scav_fun_header;
-       scavtab[CLOSURE_FUN_HEADER_WIDETAG] = scav_fun_header;
-       scavtab[RETURN_PC_HEADER_WIDETAG] = scav_return_pc_header;
+    scavtab[SIMPLE_ARRAY_COMPLEX_LONG_FLOAT_WIDETAG] =
+       scav_vector_complex_long_float;
+#endif
+    scavtab[COMPLEX_STRING_WIDETAG] = scav_boxed;
+    scavtab[COMPLEX_BIT_VECTOR_WIDETAG] = scav_boxed;
+    scavtab[COMPLEX_VECTOR_WIDETAG] = scav_boxed;
+    scavtab[COMPLEX_ARRAY_WIDETAG] = scav_boxed;
+    scavtab[CODE_HEADER_WIDETAG] = scav_code_header;
+    scavtab[SIMPLE_FUN_HEADER_WIDETAG] = scav_fun_header;
+    scavtab[CLOSURE_FUN_HEADER_WIDETAG] = scav_fun_header;
+    scavtab[RETURN_PC_HEADER_WIDETAG] = scav_return_pc_header;
 #ifdef __i386__
-       scavtab[CLOSURE_HEADER_WIDETAG] = scav_closure_header;
-       scavtab[FUNCALLABLE_INSTANCE_HEADER_WIDETAG] = scav_closure_header;
+    scavtab[CLOSURE_HEADER_WIDETAG] = scav_closure_header;
+    scavtab[FUNCALLABLE_INSTANCE_HEADER_WIDETAG] = scav_closure_header;
 #else
-       scavtab[CLOSURE_HEADER_WIDETAG] = scav_boxed;
-       scavtab[FUNCALLABLE_INSTANCE_HEADER_WIDETAG] = scav_boxed;
-#endif
-       scavtab[VALUE_CELL_HEADER_WIDETAG] = scav_boxed;
-        scavtab[SYMBOL_HEADER_WIDETAG] = scav_boxed;
-       scavtab[BASE_CHAR_WIDETAG] = scav_immediate;
-       scavtab[SAP_WIDETAG] = scav_unboxed;
-       scavtab[UNBOUND_MARKER_WIDETAG] = scav_immediate;
-       scavtab[WEAK_POINTER_WIDETAG] = scav_weak_pointer;
-        scavtab[INSTANCE_HEADER_WIDETAG] = scav_boxed;
+    scavtab[CLOSURE_HEADER_WIDETAG] = scav_boxed;
+    scavtab[FUNCALLABLE_INSTANCE_HEADER_WIDETAG] = scav_boxed;
+#endif
+    scavtab[VALUE_CELL_HEADER_WIDETAG] = scav_boxed;
+    scavtab[SYMBOL_HEADER_WIDETAG] = scav_boxed;
+    scavtab[BASE_CHAR_WIDETAG] = scav_immediate;
+    scavtab[SAP_WIDETAG] = scav_unboxed;
+    scavtab[UNBOUND_MARKER_WIDETAG] = scav_immediate;
+    scavtab[WEAK_POINTER_WIDETAG] = scav_weak_pointer;
+    scavtab[INSTANCE_HEADER_WIDETAG] = scav_boxed;
 #ifndef sparc
-        scavtab[FDEFN_WIDETAG] = scav_fdefn;
+    scavtab[FDEFN_WIDETAG] = scav_fdefn;
 #else
-        scavtab[FDEFN_WIDETAG] = scav_boxed;
+    scavtab[FDEFN_WIDETAG] = scav_boxed;
 #endif
 
-       /* Transport Other Table */
-       for (i = 0; i < 256; i++)
-               transother[i] = trans_lose;
+    /* Transport Other Table */
+    for (i = 0; i < 256; i++)
+       transother[i] = trans_lose;
 
-       transother[BIGNUM_WIDETAG] = trans_unboxed;
-       transother[RATIO_WIDETAG] = trans_boxed;
-       transother[SINGLE_FLOAT_WIDETAG] = trans_unboxed;
-       transother[DOUBLE_FLOAT_WIDETAG] = trans_unboxed;
+    transother[BIGNUM_WIDETAG] = trans_unboxed;
+    transother[RATIO_WIDETAG] = trans_boxed;
+    transother[SINGLE_FLOAT_WIDETAG] = trans_unboxed;
+    transother[DOUBLE_FLOAT_WIDETAG] = trans_unboxed;
 #ifdef LONG_FLOAT_WIDETAG
-       transother[LONG_FLOAT_WIDETAG] = trans_unboxed;
+    transother[LONG_FLOAT_WIDETAG] = trans_unboxed;
 #endif
-       transother[COMPLEX_WIDETAG] = trans_boxed;
+    transother[COMPLEX_WIDETAG] = trans_boxed;
 #ifdef COMPLEX_SINGLE_FLOAT_WIDETAG
-       transother[COMPLEX_SINGLE_FLOAT_WIDETAG] = trans_unboxed;
+    transother[COMPLEX_SINGLE_FLOAT_WIDETAG] = trans_unboxed;
 #endif
 #ifdef COMPLEX_DOUBLE_FLOAT_WIDETAG
-       transother[COMPLEX_DOUBLE_FLOAT_WIDETAG] = trans_unboxed;
+    transother[COMPLEX_DOUBLE_FLOAT_WIDETAG] = trans_unboxed;
 #endif
 #ifdef COMPLEX_LONG_FLOAT_WIDETAG
-       transother[COMPLEX_LONG_FLOAT_WIDETAG] = trans_unboxed;
-#endif
-       transother[SIMPLE_ARRAY_WIDETAG] = trans_boxed;
-       transother[SIMPLE_STRING_WIDETAG] = trans_string;
-       transother[SIMPLE_BIT_VECTOR_WIDETAG] = trans_vector_bit;
-       transother[SIMPLE_VECTOR_WIDETAG] = trans_vector;
-       transother[SIMPLE_ARRAY_UNSIGNED_BYTE_2_WIDETAG] =
-           trans_vector_unsigned_byte_2;
-       transother[SIMPLE_ARRAY_UNSIGNED_BYTE_4_WIDETAG] =
-           trans_vector_unsigned_byte_4;
-       transother[SIMPLE_ARRAY_UNSIGNED_BYTE_8_WIDETAG] =
-           trans_vector_unsigned_byte_8;
-       transother[SIMPLE_ARRAY_UNSIGNED_BYTE_16_WIDETAG] =
-           trans_vector_unsigned_byte_16;
-       transother[SIMPLE_ARRAY_UNSIGNED_BYTE_32_WIDETAG] =
-           trans_vector_unsigned_byte_32;
+    transother[COMPLEX_LONG_FLOAT_WIDETAG] = trans_unboxed;
+#endif
+    transother[SIMPLE_ARRAY_WIDETAG] = trans_boxed;
+    transother[SIMPLE_STRING_WIDETAG] = trans_string;
+    transother[SIMPLE_BIT_VECTOR_WIDETAG] = trans_vector_bit;
+    transother[SIMPLE_VECTOR_WIDETAG] = trans_vector;
+    transother[SIMPLE_ARRAY_UNSIGNED_BYTE_2_WIDETAG] =
+       trans_vector_unsigned_byte_2;
+    transother[SIMPLE_ARRAY_UNSIGNED_BYTE_4_WIDETAG] =
+       trans_vector_unsigned_byte_4;
+    transother[SIMPLE_ARRAY_UNSIGNED_BYTE_8_WIDETAG] =
+       trans_vector_unsigned_byte_8;
+    transother[SIMPLE_ARRAY_UNSIGNED_BYTE_16_WIDETAG] =
+       trans_vector_unsigned_byte_16;
+    transother[SIMPLE_ARRAY_UNSIGNED_BYTE_32_WIDETAG] =
+       trans_vector_unsigned_byte_32;
 #ifdef SIMPLE_ARRAY_SIGNED_BYTE_8_WIDETAG
-       transother[SIMPLE_ARRAY_SIGNED_BYTE_8_WIDETAG] =
-           trans_vector_unsigned_byte_8;
+    transother[SIMPLE_ARRAY_SIGNED_BYTE_8_WIDETAG] =
+       trans_vector_unsigned_byte_8;
 #endif
 #ifdef SIMPLE_ARRAY_SIGNED_BYTE_16_WIDETAG
-       transother[SIMPLE_ARRAY_SIGNED_BYTE_16_WIDETAG] =
-           trans_vector_unsigned_byte_16;
+    transother[SIMPLE_ARRAY_SIGNED_BYTE_16_WIDETAG] =
+       trans_vector_unsigned_byte_16;
 #endif
 #ifdef SIMPLE_ARRAY_SIGNED_BYTE_30_WIDETAG
-       transother[SIMPLE_ARRAY_SIGNED_BYTE_30_WIDETAG] =
-           trans_vector_unsigned_byte_32;
+    transother[SIMPLE_ARRAY_SIGNED_BYTE_30_WIDETAG] =
+       trans_vector_unsigned_byte_32;
 #endif
 #ifdef SIMPLE_ARRAY_SIGNED_BYTE_32_WIDETAG
-       transother[SIMPLE_ARRAY_SIGNED_BYTE_32_WIDETAG] =
-           trans_vector_unsigned_byte_32;
+    transother[SIMPLE_ARRAY_SIGNED_BYTE_32_WIDETAG] =
+       trans_vector_unsigned_byte_32;
 #endif
-       transother[SIMPLE_ARRAY_SINGLE_FLOAT_WIDETAG] =
-           trans_vector_single_float;
-       transother[SIMPLE_ARRAY_DOUBLE_FLOAT_WIDETAG] =
-           trans_vector_double_float;
+    transother[SIMPLE_ARRAY_SINGLE_FLOAT_WIDETAG] =
+       trans_vector_single_float;
+    transother[SIMPLE_ARRAY_DOUBLE_FLOAT_WIDETAG] =
+       trans_vector_double_float;
 #ifdef SIMPLE_ARRAY_LONG_FLOAT_WIDETAG
-       transother[SIMPLE_ARRAY_LONG_FLOAT_WIDETAG] =
-           trans_vector_long_float;
+    transother[SIMPLE_ARRAY_LONG_FLOAT_WIDETAG] =
+       trans_vector_long_float;
 #endif
 #ifdef SIMPLE_ARRAY_COMPLEX_SINGLE_FLOAT_WIDETAG
-       transother[SIMPLE_ARRAY_COMPLEX_SINGLE_FLOAT_WIDETAG] =
-           trans_vector_complex_single_float;
+    transother[SIMPLE_ARRAY_COMPLEX_SINGLE_FLOAT_WIDETAG] =
+       trans_vector_complex_single_float;
 #endif
 #ifdef SIMPLE_ARRAY_COMPLEX_DOUBLE_FLOAT_WIDETAG
-       transother[SIMPLE_ARRAY_COMPLEX_DOUBLE_FLOAT_WIDETAG] =
-           trans_vector_complex_double_float;
+    transother[SIMPLE_ARRAY_COMPLEX_DOUBLE_FLOAT_WIDETAG] =
+       trans_vector_complex_double_float;
 #endif
 #ifdef SIMPLE_ARRAY_COMPLEX_LONG_FLOAT_WIDETAG
-       transother[SIMPLE_ARRAY_COMPLEX_LONG_FLOAT_WIDETAG] =
-           trans_vector_complex_long_float;
-#endif
-       transother[COMPLEX_STRING_WIDETAG] = trans_boxed;
-       transother[COMPLEX_BIT_VECTOR_WIDETAG] = trans_boxed;
-       transother[COMPLEX_VECTOR_WIDETAG] = trans_boxed;
-       transother[COMPLEX_ARRAY_WIDETAG] = trans_boxed;
-       transother[CODE_HEADER_WIDETAG] = trans_code_header;
-       transother[SIMPLE_FUN_HEADER_WIDETAG] = trans_fun_header;
-       transother[CLOSURE_FUN_HEADER_WIDETAG] = trans_fun_header;
-       transother[RETURN_PC_HEADER_WIDETAG] = trans_return_pc_header;
-       transother[CLOSURE_HEADER_WIDETAG] = trans_boxed;
-       transother[FUNCALLABLE_INSTANCE_HEADER_WIDETAG] = trans_boxed;
-       transother[VALUE_CELL_HEADER_WIDETAG] = trans_boxed;
-       transother[SYMBOL_HEADER_WIDETAG] = trans_boxed;
-       transother[BASE_CHAR_WIDETAG] = trans_immediate;
-       transother[SAP_WIDETAG] = trans_unboxed;
-       transother[UNBOUND_MARKER_WIDETAG] = trans_immediate;
-       transother[WEAK_POINTER_WIDETAG] = trans_weak_pointer;
-        transother[INSTANCE_HEADER_WIDETAG] = trans_boxed;
-       transother[FDEFN_WIDETAG] = trans_boxed;
-
-       /* Size table */
-
-       for (i = 0; i < 256; i++)
-               sizetab[i] = size_lose;
-
-       for (i = 0; i < 32; i++) {
-               sizetab[EVEN_FIXNUM_LOWTAG|(i<<3)] = size_immediate;
-               sizetab[FUN_POINTER_LOWTAG|(i<<3)] = size_pointer;
-               /* skipping OTHER_IMMEDIATE_0_LOWTAG */
-               sizetab[LIST_POINTER_LOWTAG|(i<<3)] = size_pointer;
-               sizetab[ODD_FIXNUM_LOWTAG|(i<<3)] = size_immediate;
-               sizetab[INSTANCE_POINTER_LOWTAG|(i<<3)] = size_pointer;
-               /* skipping OTHER_IMMEDIATE_1_LOWTAG */
-               sizetab[OTHER_POINTER_LOWTAG|(i<<3)] = size_pointer;
-       }
+    transother[SIMPLE_ARRAY_COMPLEX_LONG_FLOAT_WIDETAG] =
+       trans_vector_complex_long_float;
+#endif
+    transother[COMPLEX_STRING_WIDETAG] = trans_boxed;
+    transother[COMPLEX_BIT_VECTOR_WIDETAG] = trans_boxed;
+    transother[COMPLEX_VECTOR_WIDETAG] = trans_boxed;
+    transother[COMPLEX_ARRAY_WIDETAG] = trans_boxed;
+    transother[CODE_HEADER_WIDETAG] = trans_code_header;
+    transother[SIMPLE_FUN_HEADER_WIDETAG] = trans_fun_header;
+    transother[CLOSURE_FUN_HEADER_WIDETAG] = trans_fun_header;
+    transother[RETURN_PC_HEADER_WIDETAG] = trans_return_pc_header;
+    transother[CLOSURE_HEADER_WIDETAG] = trans_boxed;
+    transother[FUNCALLABLE_INSTANCE_HEADER_WIDETAG] = trans_boxed;
+    transother[VALUE_CELL_HEADER_WIDETAG] = trans_boxed;
+    transother[SYMBOL_HEADER_WIDETAG] = trans_boxed;
+    transother[BASE_CHAR_WIDETAG] = trans_immediate;
+    transother[SAP_WIDETAG] = trans_unboxed;
+    transother[UNBOUND_MARKER_WIDETAG] = trans_immediate;
+    transother[WEAK_POINTER_WIDETAG] = trans_weak_pointer;
+    transother[INSTANCE_HEADER_WIDETAG] = trans_boxed;
+    transother[FDEFN_WIDETAG] = trans_boxed;
+
+    /* Size table */
+
+    for (i = 0; i < 256; i++)
+       sizetab[i] = size_lose;
+
+    for (i = 0; i < 32; i++) {
+       sizetab[EVEN_FIXNUM_LOWTAG|(i<<3)] = size_immediate;
+       sizetab[FUN_POINTER_LOWTAG|(i<<3)] = size_pointer;
+       /* skipping OTHER_IMMEDIATE_0_LOWTAG */
+       sizetab[LIST_POINTER_LOWTAG|(i<<3)] = size_pointer;
+       sizetab[ODD_FIXNUM_LOWTAG|(i<<3)] = size_immediate;
+       sizetab[INSTANCE_POINTER_LOWTAG|(i<<3)] = size_pointer;
+       /* skipping OTHER_IMMEDIATE_1_LOWTAG */
+       sizetab[OTHER_POINTER_LOWTAG|(i<<3)] = size_pointer;
+    }
 
-       sizetab[BIGNUM_WIDETAG] = size_unboxed;
-       sizetab[RATIO_WIDETAG] = size_boxed;
-       sizetab[SINGLE_FLOAT_WIDETAG] = size_unboxed;
-       sizetab[DOUBLE_FLOAT_WIDETAG] = size_unboxed;
+    sizetab[BIGNUM_WIDETAG] = size_unboxed;
+    sizetab[RATIO_WIDETAG] = size_boxed;
+    sizetab[SINGLE_FLOAT_WIDETAG] = size_unboxed;
+    sizetab[DOUBLE_FLOAT_WIDETAG] = size_unboxed;
 #ifdef LONG_FLOAT_WIDETAG
-       sizetab[LONG_FLOAT_WIDETAG] = size_unboxed;
+    sizetab[LONG_FLOAT_WIDETAG] = size_unboxed;
 #endif
-       sizetab[COMPLEX_WIDETAG] = size_boxed;
+    sizetab[COMPLEX_WIDETAG] = size_boxed;
 #ifdef COMPLEX_SINGLE_FLOAT_WIDETAG
-       sizetab[COMPLEX_SINGLE_FLOAT_WIDETAG] = size_unboxed;
+    sizetab[COMPLEX_SINGLE_FLOAT_WIDETAG] = size_unboxed;
 #endif
 #ifdef COMPLEX_DOUBLE_FLOAT_WIDETAG
-       sizetab[COMPLEX_DOUBLE_FLOAT_WIDETAG] = size_unboxed;
+    sizetab[COMPLEX_DOUBLE_FLOAT_WIDETAG] = size_unboxed;
 #endif
 #ifdef COMPLEX_LONG_FLOAT_WIDETAG
-       sizetab[COMPLEX_LONG_FLOAT_WIDETAG] = size_unboxed;
-#endif
-       sizetab[SIMPLE_ARRAY_WIDETAG] = size_boxed;
-       sizetab[SIMPLE_STRING_WIDETAG] = size_string;
-       sizetab[SIMPLE_BIT_VECTOR_WIDETAG] = size_vector_bit;
-       sizetab[SIMPLE_VECTOR_WIDETAG] = size_vector;
-       sizetab[SIMPLE_ARRAY_UNSIGNED_BYTE_2_WIDETAG] =
-           size_vector_unsigned_byte_2;
-       sizetab[SIMPLE_ARRAY_UNSIGNED_BYTE_4_WIDETAG] =
-           size_vector_unsigned_byte_4;
-       sizetab[SIMPLE_ARRAY_UNSIGNED_BYTE_8_WIDETAG] =
-           size_vector_unsigned_byte_8;
-       sizetab[SIMPLE_ARRAY_UNSIGNED_BYTE_16_WIDETAG] =
-           size_vector_unsigned_byte_16;
-       sizetab[SIMPLE_ARRAY_UNSIGNED_BYTE_32_WIDETAG] =
-           size_vector_unsigned_byte_32;
+    sizetab[COMPLEX_LONG_FLOAT_WIDETAG] = size_unboxed;
+#endif
+    sizetab[SIMPLE_ARRAY_WIDETAG] = size_boxed;
+    sizetab[SIMPLE_STRING_WIDETAG] = size_string;
+    sizetab[SIMPLE_BIT_VECTOR_WIDETAG] = size_vector_bit;
+    sizetab[SIMPLE_VECTOR_WIDETAG] = size_vector;
+    sizetab[SIMPLE_ARRAY_UNSIGNED_BYTE_2_WIDETAG] =
+       size_vector_unsigned_byte_2;
+    sizetab[SIMPLE_ARRAY_UNSIGNED_BYTE_4_WIDETAG] =
+       size_vector_unsigned_byte_4;
+    sizetab[SIMPLE_ARRAY_UNSIGNED_BYTE_8_WIDETAG] =
+       size_vector_unsigned_byte_8;
+    sizetab[SIMPLE_ARRAY_UNSIGNED_BYTE_16_WIDETAG] =
+       size_vector_unsigned_byte_16;
+    sizetab[SIMPLE_ARRAY_UNSIGNED_BYTE_32_WIDETAG] =
+       size_vector_unsigned_byte_32;
 #ifdef SIMPLE_ARRAY_SIGNED_BYTE_8_WIDETAG
-       sizetab[SIMPLE_ARRAY_SIGNED_BYTE_8_WIDETAG] =
-           size_vector_unsigned_byte_8;
+    sizetab[SIMPLE_ARRAY_SIGNED_BYTE_8_WIDETAG] =
+       size_vector_unsigned_byte_8;
 #endif
 #ifdef SIMPLE_ARRAY_SIGNED_BYTE_16_WIDETAG
-       sizetab[SIMPLE_ARRAY_SIGNED_BYTE_16_WIDETAG] =
-           size_vector_unsigned_byte_16;
+    sizetab[SIMPLE_ARRAY_SIGNED_BYTE_16_WIDETAG] =
+       size_vector_unsigned_byte_16;
 #endif
 #ifdef SIMPLE_ARRAY_SIGNED_BYTE_30_WIDETAG
-       sizetab[SIMPLE_ARRAY_SIGNED_BYTE_30_WIDETAG] =
-           size_vector_unsigned_byte_32;
+    sizetab[SIMPLE_ARRAY_SIGNED_BYTE_30_WIDETAG] =
+       size_vector_unsigned_byte_32;
 #endif
 #ifdef SIMPLE_ARRAY_SIGNED_BYTE_32_WIDETAG
-       sizetab[SIMPLE_ARRAY_SIGNED_BYTE_32_WIDETAG] =
-           size_vector_unsigned_byte_32;
+    sizetab[SIMPLE_ARRAY_SIGNED_BYTE_32_WIDETAG] =
+       size_vector_unsigned_byte_32;
 #endif
-       sizetab[SIMPLE_ARRAY_SINGLE_FLOAT_WIDETAG] = size_vector_single_float;
-       sizetab[SIMPLE_ARRAY_DOUBLE_FLOAT_WIDETAG] = size_vector_double_float;
+    sizetab[SIMPLE_ARRAY_SINGLE_FLOAT_WIDETAG] = size_vector_single_float;
+    sizetab[SIMPLE_ARRAY_DOUBLE_FLOAT_WIDETAG] = size_vector_double_float;
 #ifdef SIMPLE_ARRAY_LONG_FLOAT_WIDETAG
-       sizetab[SIMPLE_ARRAY_LONG_FLOAT_WIDETAG] = size_vector_long_float;
+    sizetab[SIMPLE_ARRAY_LONG_FLOAT_WIDETAG] = size_vector_long_float;
 #endif
 #ifdef SIMPLE_ARRAY_COMPLEX_SINGLE_FLOAT_WIDETAG
-       sizetab[SIMPLE_ARRAY_COMPLEX_SINGLE_FLOAT_WIDETAG] =
-           size_vector_complex_single_float;
+    sizetab[SIMPLE_ARRAY_COMPLEX_SINGLE_FLOAT_WIDETAG] =
+       size_vector_complex_single_float;
 #endif
 #ifdef SIMPLE_ARRAY_COMPLEX_DOUBLE_FLOAT_WIDETAG
-       sizetab[SIMPLE_ARRAY_COMPLEX_DOUBLE_FLOAT_WIDETAG] =
-           size_vector_complex_double_float;
+    sizetab[SIMPLE_ARRAY_COMPLEX_DOUBLE_FLOAT_WIDETAG] =
+       size_vector_complex_double_float;
 #endif
 #ifdef SIMPLE_ARRAY_COMPLEX_LONG_FLOAT_WIDETAG
-       sizetab[SIMPLE_ARRAY_COMPLEX_LONG_FLOAT_WIDETAG] =
-           size_vector_complex_long_float;
-#endif
-       sizetab[COMPLEX_STRING_WIDETAG] = size_boxed;
-       sizetab[COMPLEX_BIT_VECTOR_WIDETAG] = size_boxed;
-       sizetab[COMPLEX_VECTOR_WIDETAG] = size_boxed;
-       sizetab[COMPLEX_ARRAY_WIDETAG] = size_boxed;
-       sizetab[CODE_HEADER_WIDETAG] = size_code_header;
+    sizetab[SIMPLE_ARRAY_COMPLEX_LONG_FLOAT_WIDETAG] =
+       size_vector_complex_long_float;
+#endif
+    sizetab[COMPLEX_STRING_WIDETAG] = size_boxed;
+    sizetab[COMPLEX_BIT_VECTOR_WIDETAG] = size_boxed;
+    sizetab[COMPLEX_VECTOR_WIDETAG] = size_boxed;
+    sizetab[COMPLEX_ARRAY_WIDETAG] = size_boxed;
+    sizetab[CODE_HEADER_WIDETAG] = size_code_header;
 #if 0
-       /* Shouldn't see these so just lose if it happens */
-       sizetab[SIMPLE_FUN_HEADER_WIDETAG] = size_function_header;
-       sizetab[CLOSURE_FUN_HEADER_WIDETAG] = size_function_header;
-       sizetab[RETURN_PC_HEADER_WIDETAG] = size_return_pc_header;
-#endif
-       sizetab[CLOSURE_HEADER_WIDETAG] = size_boxed;
-       sizetab[FUNCALLABLE_INSTANCE_HEADER_WIDETAG] = size_boxed;
-       sizetab[VALUE_CELL_HEADER_WIDETAG] = size_boxed;
-       sizetab[SYMBOL_HEADER_WIDETAG] = size_boxed;
-       sizetab[BASE_CHAR_WIDETAG] = size_immediate;
-       sizetab[SAP_WIDETAG] = size_unboxed;
-       sizetab[UNBOUND_MARKER_WIDETAG] = size_immediate;
-       sizetab[WEAK_POINTER_WIDETAG] = size_weak_pointer;
-        sizetab[INSTANCE_HEADER_WIDETAG] = size_boxed;
-       sizetab[FDEFN_WIDETAG] = size_boxed;
+    /* Shouldn't see these so just lose if it happens */
+    sizetab[SIMPLE_FUN_HEADER_WIDETAG] = size_function_header;
+    sizetab[CLOSURE_FUN_HEADER_WIDETAG] = size_function_header;
+    sizetab[RETURN_PC_HEADER_WIDETAG] = size_return_pc_header;
+#endif
+    sizetab[CLOSURE_HEADER_WIDETAG] = size_boxed;
+    sizetab[FUNCALLABLE_INSTANCE_HEADER_WIDETAG] = size_boxed;
+    sizetab[VALUE_CELL_HEADER_WIDETAG] = size_boxed;
+    sizetab[SYMBOL_HEADER_WIDETAG] = size_boxed;
+    sizetab[BASE_CHAR_WIDETAG] = size_immediate;
+    sizetab[SAP_WIDETAG] = size_unboxed;
+    sizetab[UNBOUND_MARKER_WIDETAG] = size_immediate;
+    sizetab[WEAK_POINTER_WIDETAG] = size_weak_pointer;
+    sizetab[INSTANCE_HEADER_WIDETAG] = size_boxed;
+    sizetab[FDEFN_WIDETAG] = size_boxed;
 }
 \f
 /* noise to manipulate the gc trigger stuff */

diff --git a/src/runtime/purify.c b/src/runtime/purify.c
index 8581692..ba5d88e 100644 (file)
--- a/src/runtime/purify.c
+++ b/src/runtime/purify.c
@@ -611,80 +611,82 @@ ptrans_vector(lispobj thing, int bits, int extra,
 static void
 apply_code_fixups_during_purify(struct code *old_code, struct code *new_code)
 {
-  int nheader_words, ncode_words, nwords;
-  void  *constants_start_addr, *constants_end_addr;
-  void  *code_start_addr, *code_end_addr;
-  lispobj fixups = NIL;
-  unsigned  displacement = (unsigned)new_code - (unsigned)old_code;
-  struct vector *fixups_vector;
-
-  ncode_words = fixnum_value(new_code->code_size);
-  nheader_words = HeaderValue(*(lispobj *)new_code);
-  nwords = ncode_words + nheader_words;
-
-  constants_start_addr = (void *)new_code + 5*4;
-  constants_end_addr = (void *)new_code + nheader_words*4;
-  code_start_addr = (void *)new_code + nheader_words*4;
-  code_end_addr = (void *)new_code + nwords*4;
-
-  /* The first constant should be a pointer to the fixups for this
-   * code objects. Check. */
-  fixups = new_code->constants[0];
-
-  /* It will be 0 or the unbound-marker if there are no fixups, and
-   * will be an other-pointer to a vector if it is valid. */
-  if ((fixups==0) ||
-      (fixups==UNBOUND_MARKER_WIDETAG) ||
-      !is_lisp_pointer(fixups)) {
+    int nheader_words, ncode_words, nwords;
+    void  *constants_start_addr, *constants_end_addr;
+    void  *code_start_addr, *code_end_addr;
+    lispobj fixups = NIL;
+    unsigned  displacement = (unsigned)new_code - (unsigned)old_code;
+    struct vector *fixups_vector;
+
+    ncode_words = fixnum_value(new_code->code_size);
+    nheader_words = HeaderValue(*(lispobj *)new_code);
+    nwords = ncode_words + nheader_words;
+
+    constants_start_addr = (void *)new_code + 5*4;
+    constants_end_addr = (void *)new_code + nheader_words*4;
+    code_start_addr = (void *)new_code + nheader_words*4;
+    code_end_addr = (void *)new_code + nwords*4;
+
+    /* The first constant should be a pointer to the fixups for this
+     * code objects. Check. */
+    fixups = new_code->constants[0];
+
+    /* It will be 0 or the unbound-marker if there are no fixups, and
+     * will be an other-pointer to a vector if it is valid. */
+    if ((fixups==0) ||
+       (fixups==UNBOUND_MARKER_WIDETAG) ||
+       !is_lisp_pointer(fixups)) {
 #ifdef GENCGC
-    /* Check for a possible errors. */
-    sniff_code_object(new_code,displacement);
+       /* Check for a possible errors. */
+       sniff_code_object(new_code,displacement);
 #endif
-    return;
-  }
+       return;
+    }
 
-  fixups_vector = (struct vector *)native_pointer(fixups);
+    fixups_vector = (struct vector *)native_pointer(fixups);
 
-  /* Could be pointing to a forwarding pointer. */
-  if (is_lisp_pointer(fixups) && (dynamic_pointer_p(fixups))
-      && forwarding_pointer_p(*(lispobj *)fixups_vector)) {
-    /* If so then follow it. */
-    fixups_vector = (struct vector *)native_pointer(*(lispobj *)fixups_vector);
-  }
+    /* Could be pointing to a forwarding pointer. */
+    if (is_lisp_pointer(fixups) && (dynamic_pointer_p(fixups))
+       && forwarding_pointer_p(*(lispobj *)fixups_vector)) {
+       /* If so then follow it. */
+       fixups_vector =
+           (struct vector *)native_pointer(*(lispobj *)fixups_vector);
+    }
 
-  if (widetag_of(fixups_vector->header) ==
-      SIMPLE_ARRAY_UNSIGNED_BYTE_32_WIDETAG) {
-    /* We got the fixups for the code block. Now work through the vector,
-     * and apply a fixup at each address. */
-    int length = fixnum_value(fixups_vector->length);
-    int i;
-    for (i=0; i<length; i++) {
-      unsigned offset = fixups_vector->data[i];
-      /* Now check the current value of offset. */
-      unsigned  old_value = *(unsigned *)((unsigned)code_start_addr + offset);
-
-      /* If it's within the old_code object then it must be an
-       * absolute fixup (relative ones are not saved) */
-      if ((old_value>=(unsigned)old_code)
-         && (old_value<((unsigned)old_code + nwords*4)))
-       /* So add the dispacement. */
-       *(unsigned *)((unsigned)code_start_addr + offset) = old_value
-         + displacement;
-      else
-       /* It is outside the old code object so it must be a relative
-        * fixup (absolute fixups are not saved). So subtract the
-        * displacement. */
-       *(unsigned *)((unsigned)code_start_addr + offset) = old_value
-         - displacement;
+    if (widetag_of(fixups_vector->header) ==
+       SIMPLE_ARRAY_UNSIGNED_BYTE_32_WIDETAG) {
+       /* We got the fixups for the code block. Now work through the
+        * vector, and apply a fixup at each address. */
+       int length = fixnum_value(fixups_vector->length);
+       int i;
+       for (i=0; i<length; i++) {
+           unsigned offset = fixups_vector->data[i];
+           /* Now check the current value of offset. */
+           unsigned old_value =
+               *(unsigned *)((unsigned)code_start_addr + offset);
+
+           /* If it's within the old_code object then it must be an
+            * absolute fixup (relative ones are not saved) */
+           if ((old_value>=(unsigned)old_code)
+               && (old_value<((unsigned)old_code + nwords*4)))
+               /* So add the dispacement. */
+               *(unsigned *)((unsigned)code_start_addr + offset) = old_value
+                   + displacement;
+           else
+               /* It is outside the old code object so it must be a relative
+                * fixup (absolute fixups are not saved). So subtract the
+                * displacement. */
+               *(unsigned *)((unsigned)code_start_addr + offset) = old_value
+                   - displacement;
+       }
     }
-  }
 
-  /* No longer need the fixups. */
-  new_code->constants[0] = 0;
+    /* No longer need the fixups. */
+    new_code->constants[0] = 0;
 
 #ifdef GENCGC
-  /* Check for possible errors. */
-  sniff_code_object(new_code,displacement);
+    /* Check for possible errors. */
+    sniff_code_object(new_code,displacement);
 #endif
 }
 #endif

diff --git a/version.lisp-expr b/version.lisp-expr
index 24416c2..d790b5c 100644 (file)
--- a/version.lisp-expr
+++ b/version.lisp-expr
@@ -18,4 +18,4 @@
 ;;; for internal versions, especially for internal versions off the
 ;;; main CVS branch, it gets hairier, e.g. "0.pre7.14.flaky4.13".)
 
-"0.pre7.103"
+"0.pre7.104"