summaryrefslogtreecommitdiff
path: root/src
diff options
context:
space:
mode:
authorJim Blandy <jimb@redhat.com>1990-11-12 20:20:40 +0000
committerJim Blandy <jimb@redhat.com>1990-11-12 20:20:40 +0000
commit3b1ba6ce2d96f4870029f5416d786f36411f00b0 (patch)
tree6e2e248e4b016af15ba58f4fd1d759cacabf2c91 /src
parenta9a9c79a7d9c4fdb1f82bce66da23e0685821450 (diff)
downloademacs-3b1ba6ce2d96f4870029f5416d786f36411f00b0.tar.gz
entered into RCS
Diffstat (limited to 'src')
-rw-r--r--src/=environ.c316
-rw-r--r--src/=old-ralloc.c1069
2 files changed, 1385 insertions, 0 deletions
diff --git a/src/=environ.c b/src/=environ.c
new file mode 100644
index 00000000000..863f40ccd2a
--- /dev/null
+++ b/src/=environ.c
@@ -0,0 +1,316 @@
+/* Environment-hacking for GNU Emacs subprocess
+ Copyright (C) 1986 Free Software Foundation, Inc.
+
+This file is part of GNU Emacs.
+
+GNU Emacs is free software; you can redistribute it and/or modify
+it under the terms of the GNU General Public License as published by
+the Free Software Foundation; either version 1, or (at your option)
+any later version.
+
+GNU Emacs is distributed in the hope that it will be useful,
+but WITHOUT ANY WARRANTY; without even the implied warranty of
+MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+GNU General Public License for more details.
+
+You should have received a copy of the GNU General Public License
+along with GNU Emacs; see the file COPYING. If not, write to
+the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
+
+
+#include "config.h"
+#include "lisp.h"
+
+#ifdef MAINTAIN_ENVIRONMENT
+
+#ifdef VMS
+you lose -- this is un*x-only
+#endif
+
+/* alist of (name-string . value-string) */
+Lisp_Object Venvironment_alist;
+extern char **environ;
+
+void
+set_environment_alist (str, val)
+ register Lisp_Object str, val;
+{
+ register Lisp_Object tem;
+
+ tem = Fassoc (str, Venvironment_alist);
+ if (NULL (tem))
+ if (NULL (val))
+ ;
+ else
+ Venvironment_alist = Fcons (Fcons (str, val), Venvironment_alist);
+ else
+ if (NULL (val))
+ Venvironment_alist = Fdelq (tem, Venvironment_alist);
+ else
+ XCONS (tem)->cdr = val;
+}
+
+
+
+static void
+initialize_environment_alist ()
+{
+ register unsigned char **e, *s;
+ extern char *index ();
+
+ for (e = (unsigned char **) environ; *e; e++)
+ {
+ s = (unsigned char *) index (*e, '=');
+ if (s)
+ set_environment_alist (make_string (*e, s - *e),
+ build_string (s + 1));
+ }
+}
+
+
+unsigned char *
+getenv_1 (str, ephemeral)
+ register unsigned char *str;
+ int ephemeral; /* if ephmeral, don't need to gc-proof */
+{
+ register Lisp_Object env;
+ int len = strlen (str);
+
+ for (env = Venvironment_alist; CONSP (env); env = XCONS (env)->cdr)
+ {
+ register Lisp_Object car = XCONS (env)->car;
+ register Lisp_Object tem = XCONS (car)->car;
+
+ if ((len == XSTRING (tem)->size) &&
+ (!bcmp (str, XSTRING (tem)->data, len)))
+ {
+ /* Found it in the lisp environment */
+ tem = XCONS (car)->cdr;
+ if (ephemeral)
+ /* Caller promises that gc won't make him lose */
+ return XSTRING (tem)->data;
+ else
+ {
+ register unsigned char **e;
+ unsigned char *s;
+ int ll = XSTRING (tem)->size;
+
+ /* Look for element in the original unix environment */
+ for (e = (unsigned char **) environ; *e; e++)
+ if (!bcmp (str, *e, len) && *(*e + len) == '=')
+ {
+ s = *e + len + 1;
+ if (strlen (s) >= ll)
+ /* User hasn't either hasn't munged it or has set it
+ to something shorter -- we don't have to cons */
+ goto copy;
+ else
+ goto cons;
+ };
+ cons:
+ /* User has setenv'ed it to a diferent value, and our caller
+ isn't guaranteeing that he won't stash it away somewhere.
+ We can't just return a pointer to the lisp string, as that
+ will be corrupted when gc happens. So, we cons (in such
+ a way that it can't be freed -- though this isn't such a
+ problem since the only callers of getenv (as opposed to
+ those of egetenv) are very early, before the user -could-
+ have frobbed the environment. */
+ s = (unsigned char *) xmalloc (ll + 1);
+ copy:
+ bcopy (XSTRING (tem)->data, s, ll + 1);
+ return (s);
+ }
+ }
+ }
+ return ((unsigned char *) 0);
+}
+
+/* unsigned -- stupid delcaration in lisp.h */ char *
+getenv (str)
+ register unsigned char *str;
+{
+ return ((char *) getenv_1 (str, 0));
+}
+
+unsigned char *
+egetenv (str)
+ register unsigned char *str;
+{
+ return (getenv_1 (str, 1));
+}
+
+
+#if (1 == 1) /* use caller-alloca versions, rather than callee-malloc */
+int
+size_of_current_environ ()
+{
+ register int size;
+ Lisp_Object tem;
+
+ tem = Flength (Venvironment_alist);
+
+ size = (XINT (tem) + 1) * sizeof (unsigned char *);
+ /* + 1 for environment-terminating 0 */
+
+ for (tem = Venvironment_alist; !NULL (tem); tem = XCONS (tem)->cdr)
+ {
+ register Lisp_Object str, val;
+
+ str = XCONS (XCONS (tem)->car)->car;
+ val = XCONS (XCONS (tem)->car)->cdr;
+
+ size += (XSTRING (str)->size +
+ XSTRING (val)->size +
+ 2); /* 1 for '=', 1 for '\000' */
+ }
+ return size;
+}
+
+void
+get_current_environ (memory_block)
+ unsigned char **memory_block;
+{
+ register unsigned char **e, *s;
+ register int len;
+ register Lisp_Object tem;
+
+ e = memory_block;
+
+ tem = Flength (Venvironment_alist);
+
+ s = (unsigned char *) memory_block
+ + (XINT (tem) + 1) * sizeof (unsigned char *);
+
+ for (tem = Venvironment_alist; !NULL (tem); tem = XCONS (tem)->cdr)
+ {
+ register Lisp_Object str, val;
+
+ str = XCONS (XCONS (tem)->car)->car;
+ val = XCONS (XCONS (tem)->car)->cdr;
+
+ *e++ = s;
+ len = XSTRING (str)->size;
+ bcopy (XSTRING (str)->data, s, len);
+ s += len;
+ *s++ = '=';
+ len = XSTRING (val)->size;
+ bcopy (XSTRING (val)->data, s, len);
+ s += len;
+ *s++ = '\000';
+ }
+ *e = 0;
+}
+
+#else
+/* dead code (this function mallocs, caller frees) superseded by above (which allows caller to use alloca) */
+unsigned char **
+current_environ ()
+{
+ unsigned char **env;
+ register unsigned char **e, *s;
+ register int len, env_len;
+ Lisp_Object tem;
+ Lisp_Object str, val;
+
+ tem = Flength (Venvironment_alist);
+
+ env_len = (XINT (tem) + 1) * sizeof (char *);
+ /* + 1 for terminating 0 */
+
+ len = 0;
+ for (tem = Venvironment_alist; !NULL (tem); tem = XCONS (tem)->cdr)
+ {
+ str = XCONS (XCONS (tem)->car)->car;
+ val = XCONS (XCONS (tem)->car)->cdr;
+
+ len += (XSTRING (str)->size +
+ XSTRING (val)->size +
+ 2);
+ }
+
+ e = env = (unsigned char **) xmalloc (env_len + len);
+ s = (unsigned char *) env + env_len;
+
+ for (tem = Venvironment_alist; !NULL (tem); tem = XCONS (tem)->cdr)
+ {
+ str = XCONS (XCONS (tem)->car)->car;
+ val = XCONS (XCONS (tem)->car)->cdr;
+
+ *e++ = s;
+ len = XSTRING (str)->size;
+ bcopy (XSTRING (str)->data, s, len);
+ s += len;
+ *s++ = '=';
+ len = XSTRING (val)->size;
+ bcopy (XSTRING (val)->data, s, len);
+ s += len;
+ *s++ = '\000';
+ }
+ *e = 0;
+
+ return env;
+}
+
+#endif /* dead code */
+
+
+DEFUN ("getenv", Fgetenv, Sgetenv, 1, 2, "sEnvironment variable: \np",
+ "Return the value of environment variable VAR, as a string.\n\
+When invoked interactively, print the value in the echo area.\n\
+VAR is a string, the name of the variable,\n\
+ or the symbol t, meaning to return an alist representing the\n\
+ current environment.")
+ (str, interactivep)
+ Lisp_Object str, interactivep;
+{
+ Lisp_Object val;
+
+ if (str == Qt) /* If arg is t, return whole environment */
+ return (Fcopy_alist (Venvironment_alist));
+
+ CHECK_STRING (str, 0);
+ val = Fcdr (Fassoc (str, Venvironment_alist));
+ if (!NULL (interactivep))
+ {
+ if (NULL (val))
+ message ("%s not defined in environment", XSTRING (str)->data);
+ else
+ message ("\"%s\"", XSTRING (val)->data);
+ }
+ return val;
+}
+
+DEFUN ("setenv", Fsetenv, Ssetenv, 1, 2,
+ "sEnvironment variable: \nsSet %s to value: ",
+ "Set the value of environment variable VAR to VALUE.\n\
+Both args must be strings. Returns VALUE.")
+ (str, val)
+ Lisp_Object str;
+ Lisp_Object val;
+{
+ Lisp_Object tem;
+
+ CHECK_STRING (str, 0);
+ if (!NULL (val))
+ CHECK_STRING (val, 0);
+
+ set_environment_alist (str, val);
+ return val;
+}
+
+
+syms_of_environ ()
+{
+ staticpro (&Venvironment_alist);
+ defsubr (&Ssetenv);
+ defsubr (&Sgetenv);
+}
+
+init_environ ()
+{
+ Venvironment_alist = Qnil;
+ initialize_environment_alist ();
+}
+
+#endif /* MAINTAIN_ENVIRONMENT */
diff --git a/src/=old-ralloc.c b/src/=old-ralloc.c
new file mode 100644
index 00000000000..28562994e9a
--- /dev/null
+++ b/src/=old-ralloc.c
@@ -0,0 +1,1069 @@
+/* Block-relocating memory allocator.
+ Copyright (C) 1990 Free Software Foundation, Inc.
+
+This file is part of GNU Emacs.
+
+GNU Emacs is free software; you can redistribute it and/or modify
+it under the terms of the GNU General Public License as published by
+the Free Software Foundation; either version 1, or (at your option)
+any later version.
+
+GNU Emacs is distributed in the hope that it will be useful,
+but WITHOUT ANY WARRANTY; without even the implied warranty of
+MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+GNU General Public License for more details.
+
+You should have received a copy of the GNU General Public License
+along with GNU Emacs; see the file COPYING. If not, write to
+the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
+
+/* This package works by allocating blocks from a zone of memory
+ above that used by malloc (). When malloc needs more space that
+ would enter our zone, we relocate blocks upward. The bottom of
+ our zone is kept in the variable `virtual_break_value'. The top
+ of our zone is indicated by `real_break_value'.
+
+ As blocks are freed, a free list is maintained and we attempt
+ to satisfy further requests for space using a first-fit policy.
+ If there are holes, but none fit, memory is compacted and a new
+ block is obtained at the top of the zone.
+
+ NOTE that our blocks are always rounded to page boundaries. */
+
+/*
+ NOTES:
+
+ Once this is stable, I can speed things up by intially leaving a large
+ gap between real_break_value and true_break_value, or maybe making
+ a large hole before the first block.
+
+ If we also kept track of size_wanted, we could gain some
+ extra space upon compactification.
+
+ Perhaps we should just note a hole when malloc does doing sbrk(-n)?
+
+ Relocating downward upon freeing the first block would simplify
+ other things.
+
+ When r_alloc places a block in a hole, we could easily check if there's
+ much more than required, and leave a hole.
+ */
+
+#include "mem_limits.h"
+
+static POINTER r_alloc_sbrk ();
+static POINTER sbrk ();
+static POINTER brk ();
+
+/* Variable `malloc' uses for the function which gets more space
+ from the system. */
+extern POINTER (*__morecore) ();
+
+/* List of variables which point into the associated data block. */
+struct other_pointer
+{
+ POINTER *location;
+ struct other_pointer *next;
+};
+
+/* List describing all the user's pointers to relocatable blocks. */
+typedef struct rel_pointers
+{
+ struct rel_pointers *next;
+ struct rel_pointers *prev;
+ struct other_pointer *others; /* Other variables which use this block. */
+ POINTER *location; /* Location of the block's pointer. */
+ POINTER block; /* Address of the actual data. */
+ int size; /* The size of the block. */
+} relocatable_pointer;
+
+#define REL_NIL ((struct rel_pointers *) 0)
+
+static relocatable_pointer *pointer_list;
+static relocatable_pointer *last_pointer;
+
+#define MAX_HOLES 2
+
+/* Vector of available holes among allocated blocks. This can include
+ a hole at the beginning of the list, but never the end. */
+typedef struct
+{
+ POINTER address;
+ unsigned int size;
+} hole_descriptor;
+
+static hole_descriptor r_alloc_holes[MAX_HOLES];
+
+/* Number of holes currently available. */
+static int holes;
+
+/* The process break value (i.e., curbrk) */
+static POINTER real_break_value;
+
+/* The REAL (i.e., page aligned) break value. */
+static POINTER true_break_value;
+
+/* Address of start of data space in use by relocatable blocks.
+ This is what `malloc' thinks is the process break value. */
+static POINTER virtual_break_value;
+
+/* Nonzero if we have told `malloc' to start using `r_alloc_sbrk'
+ instead of calling `sbrk' directly. */
+int r_alloc_in_use;
+
+#define PAGE (getpagesize ())
+#define ALIGNED(addr) (((unsigned int) (addr) & (PAGE - 1)) == 0)
+#define ROUNDUP(size) (((unsigned int) (size) + PAGE) & ~(PAGE - 1))
+
+/*
+ Level number of warnings already issued.
+ 0 -- no warnings issued.
+ 1 -- 75% warning already issued.
+ 2 -- 85% warning already issued.
+*/
+static int warnlevel;
+
+/* Function to call to issue a warning;
+ 0 means don't issue them. */
+static void (*warnfunction) ();
+
+/* Call this to start things off. It determines the current process
+ break value, as well as the `true' break value--because the system
+ allocates memory in page increments, if the break value is not page
+ aligned it means that space up to the next page boundary is actually
+ available. */
+
+void
+malloc_init (start, warn_func)
+ POINTER start;
+ void (*warn_func) ();
+{
+ r_alloc_in_use = 1;
+ __morecore = r_alloc_sbrk;
+
+ virtual_break_value = real_break_value = sbrk (0);
+ if (ALIGNED (real_break_value))
+ true_break_value = real_break_value;
+ else
+ true_break_value = (POINTER) ROUNDUP (real_break_value);
+
+ if (start)
+ data_space_start = start;
+ lim_data = 0;
+ warnlevel = 0;
+ warnfunction = warn_func;
+
+ get_lim_data ();
+}
+
+/* Get more space for us to use. Return a pointer to SIZE more
+ bytes of space. SIZE is internally rounded up to a page boundary,
+ and requests for integral pages prefetch an extra page. */
+
+static POINTER
+get_more_space (size)
+ unsigned int size;
+{
+ unsigned int margin = true_break_value - real_break_value;
+ unsigned int get;
+ POINTER old_break = real_break_value;
+
+ if (size == 0)
+ return real_break_value;
+
+ if (size <= margin)
+ {
+ real_break_value += size;
+ return old_break;
+ }
+
+ get = ROUNDUP (size - margin);
+ if (sbrk (get) < (POINTER) 0)
+ return NULL;
+
+ true_break_value += get;
+ real_break_value = (old_break + size);
+
+ return old_break;
+}
+
+/* Relinquish size bytes of space to the system. Space is only returned
+ in page increments. If successful, return real_break_value. */
+
+static POINTER
+return_space (size)
+ unsigned int size;
+{
+ unsigned int margin = (true_break_value - real_break_value) + size;
+ unsigned int to_return = (margin / PAGE) * PAGE;
+ unsigned new_margin = margin % PAGE;
+
+ true_break_value -= to_return;
+ if (! brk (true_break_value))
+ return NULL;
+
+ real_break_value = true_break_value - new_margin;
+ return real_break_value;
+}
+
+/* Record a new hole in memory beginning at ADDRESS of size SIZE.
+ Holes are ordered by location. Adjacent holes are merged.
+ Holes are zero filled before being noted. */
+
+static void
+note_hole (address, size)
+ POINTER address;
+ int size;
+{
+ register int this_hole = holes - 1; /* Start at the last hole. */
+ register POINTER end = address + size; /* End of the hole. */
+ register int i;
+
+ if (holes)
+ {
+ /* Find the hole which should precede this new one. */
+ while (this_hole >= 0 && r_alloc_holes[this_hole].address > address)
+ this_hole--;
+
+ /* Can we merge with preceding? */
+ if (this_hole >= 0
+ && r_alloc_holes[this_hole].address + r_alloc_holes[this_hole].size
+ == address)
+ {
+ r_alloc_holes[this_hole].size += size;
+
+ if (this_hole == holes - 1)
+ return;
+
+ /* Can we also merge with following? */
+ if (end == r_alloc_holes[this_hole + 1].address)
+ {
+ r_alloc_holes[this_hole].size
+ += r_alloc_holes[this_hole + 1].size;
+
+ for (i = this_hole + 1; i < holes - 1; i++)
+ r_alloc_holes[i] = r_alloc_holes[i + 1];
+ holes--;
+ }
+
+ return;
+ }
+
+ if (this_hole < holes - 1) /* there are following holes */
+ {
+ register int next_hole = this_hole + 1;
+
+ /* Can we merge with the next hole? */
+ if (end == r_alloc_holes[next_hole].address)
+ {
+ r_alloc_holes[next_hole].address = address;
+ r_alloc_holes[next_hole].size += size;
+ return;
+ }
+
+ /* Can't merge, so insert. */
+ for (i = holes; i > next_hole; i--)
+ r_alloc_holes[i] = r_alloc_holes[i - 1];
+ r_alloc_holes[next_hole].address = address;
+ r_alloc_holes[next_hole].size = size;
+ holes++;
+
+ return;
+ }
+ else /* Simply add this hole at the end. */
+ {
+ r_alloc_holes[holes].address = address;
+ r_alloc_holes[holes].size = size;
+ holes++;
+
+ return;
+ }
+
+ abort ();
+ }
+ else /* Make the first hole. */
+ {
+ holes = 1;
+ r_alloc_holes[0].address = address;
+ r_alloc_holes[0].size = size;
+ }
+}
+
+/* Mark hole HOLE as no longer available by re-organizing the vector.
+ HOLE is the Nth hole, beginning with 0. This doesn *not* affect memory
+ organization. */
+
+static void
+delete_hole (hole)
+ int hole;
+{
+ register int i;
+
+ for (i = hole; i < holes - 1; i++)
+ r_alloc_holes[i] = r_alloc_holes[i + 1];
+
+ holes--;
+}
+
+/* Insert a newly allocated pointer, NEW_PTR, at the appropriate
+ place in our list. */
+
+static void
+insert (new_ptr)
+ register relocatable_pointer *new_ptr;
+{
+ register relocatable_pointer *this_ptr = pointer_list;
+
+ while (this_ptr != REL_NIL && this_ptr->block < new_ptr->block)
+ this_ptr = this_ptr->next;
+
+ if (this_ptr == REL_NIL)
+ abort (); /* Use `attach' for appending. */
+
+ new_ptr->next = this_ptr;
+ new_ptr->prev = this_ptr->prev;
+ this_ptr->prev = new_ptr;
+
+ if (this_ptr == pointer_list)
+ pointer_list = new_ptr;
+ else
+ new_ptr->prev->next = new_ptr;
+}
+
+/* Attach a newly allocated pointer, NEW_PTR, to the end of our list. */
+
+static void
+attach (new_ptr)
+ relocatable_pointer *new_ptr;
+{
+ if (pointer_list == REL_NIL)
+ {
+ pointer_list = new_ptr;
+ last_pointer = new_ptr;
+ new_ptr->next = new_ptr->prev = REL_NIL;
+ }
+ else
+ {
+ new_ptr->next = REL_NIL;
+ last_pointer->next = new_ptr;
+ new_ptr->prev = last_pointer;
+ last_pointer = new_ptr;
+ }
+}
+
+static relocatable_pointer *
+find_block (block)
+ POINTER block;
+{
+ register relocatable_pointer *this_ptr = pointer_list;
+
+ while (this_ptr != REL_NIL && this_ptr->block != block)
+ this_ptr = this_ptr->next;
+
+ return this_ptr;
+}
+
+static relocatable_pointer *
+find_location (address)
+ POINTER *address;
+{
+ register relocatable_pointer *this_ptr = pointer_list;
+
+ while (this_ptr != REL_NIL && this_ptr->location != address)
+ {
+ struct other_pointer *op = this_ptr->others;
+
+ while (op != (struct other_pointer *) 0)
+ {
+ if (op->location == address)
+ return this_ptr;
+
+ op = op->next;
+ }
+
+ this_ptr = this_ptr->next;
+ }
+
+ return this_ptr;
+}
+
+
+static void compactify ();
+
+/* Record of last new block allocated. */
+static relocatable_pointer *last_record;
+
+/* Allocate a block of size SIZE and record that PTR points to it.
+ If successful, store the address of the block in *PTR and return
+ it as well. Otherwise return NULL. */
+
+POINTER
+r_alloc (ptr, size)
+ POINTER *ptr;
+ int size;
+{
+ register relocatable_pointer *record
+ = (relocatable_pointer *) malloc (sizeof (relocatable_pointer));
+ register POINTER block;
+
+ /* If we can't get space to record this pointer, fail. */
+ if (record == 0)
+ return NULL;
+
+ last_record = record;
+
+ if (holes) /* Search for a hole the right size. */
+ {
+ int i;
+
+ for (i = 0; i < holes; i++)
+ if (r_alloc_holes[i].size >= size)
+ {
+ record->location = ptr;
+ record->others = (struct other_pointer *) 0;
+ record->block = *ptr = r_alloc_holes[i].address;
+ if (r_alloc_holes[i].size > ROUNDUP (size))
+ {
+ record->size = ROUNDUP (size);
+ r_alloc_holes[i].size -= ROUNDUP (size);
+ r_alloc_holes[i].address += ROUNDUP (size);
+ }
+ else
+ {
+ record->size = r_alloc_holes[i].size;
+ delete_hole (i);
+ }
+ insert (record);
+
+ *ptr = record->block;
+ return record->block;
+ }
+
+ /* No holes large enough. Burp. */
+ compactify ();
+ }
+
+ /* No holes: grow the process. */
+ block = get_more_space (size);
+ if (block == NULL)
+ {
+ free (record);
+ return NULL;
+ }
+
+ /* Return the address of the block. */
+ *ptr = block;
+
+ /* Record and append this pointer to our list. */
+ record->location = ptr;
+ record->others = (struct other_pointer *) 0;
+ record->block = block;
+ record->size = size;
+ attach (record);
+
+ return block;
+}
+
+/* Declare VAR to be a pointer which points into the block of r_alloc'd
+ memory at BLOCK.
+
+ If VAR is already delcared for this block, simply return.
+ If VAR currently points to some other block, remove that declaration
+ of it, then install the new one.
+
+ Return 0 if successful, -1 otherwise. */
+
+int
+r_alloc_declare (var, block)
+ POINTER *var;
+ register POINTER block;
+{
+ register relocatable_pointer *block_ptr = find_block (block);
+ relocatable_pointer *var_ptr = find_location (var);
+ register struct other_pointer *other;
+
+ if (block_ptr == REL_NIL)
+ abort ();
+
+ if (var_ptr != REL_NIL) /* Var already declared somewhere. */
+ {
+ register struct other_pointer *po;
+
+ if (var_ptr == block_ptr) /* Var already points to this block. */
+ return 0;
+
+ po = (struct other_pointer *) 0;
+ other = var_ptr->others;
+ while (other && other->location != var)
+ {
+ po = other;
+ other = other->next;
+ }
+
+ if (!other) /* This only happens if the location is */
+ abort (); /* the main pointer and not an `other' */
+
+ if (po) /* In the chain */
+ {
+ po->next = other->next;
+ free (other);
+ }
+ else /* Only element of the chain */
+ {
+ free (var_ptr->others);
+ var_ptr->others = (struct other_pointer *) 0;
+ }
+ }
+
+ /* Install this variable as an `other' element */
+
+ other = (struct other_pointer *) malloc (sizeof (struct other_pointer));
+
+ if (other == 0)
+ return -1;
+
+ /* If the malloc relocated this data block, adjust this variable. */
+ if (block != block_ptr->block)
+ {
+ int offset = block_ptr->block - block;
+
+ *var += offset;
+ }
+
+ other->location = var;
+ other->next = (struct other_pointer *) 0;
+
+ if (block_ptr->others == (struct other_pointer *) 0)
+ block_ptr->others = other;
+ else
+ {
+ register struct other_pointer *op = block_ptr->others;
+
+ while (op->next != (struct other_pointer *) 0)
+ op = op->next;
+ op->next = other;
+ }
+
+ return 0;
+}
+
+/* Recursively free the linked list of `other' pointers to a block. */
+
+static void
+free_others (another)
+ struct other_pointer *another;
+{
+ if (another == (struct other_pointer *) 0)
+ return;
+
+ free_others (another->next);
+ free (another);
+}
+
+/* Remove the element pointed to by PTR from the doubly linked list.
+ Record the newly freed space in `holes', unless it was at the end,
+ in which case return that space to the system. Return 0 if successful,
+ -1 otherwise. */
+
+int
+r_alloc_free (ptr)
+ register POINTER *ptr;
+{
+ register relocatable_pointer *this_ptr = find_block (*ptr);
+
+ if (this_ptr == REL_NIL)
+ return -1;
+ else
+ {
+ register relocatable_pointer *prev = this_ptr->prev;
+ register relocatable_pointer *next = this_ptr->next;
+ if (next && prev) /* Somewhere in the middle */
+ {
+ next->prev = prev;
+ prev->next = next;
+ }
+ else if (prev) /* Last block */
+ {
+ prev->next = REL_NIL;
+ last_pointer = prev;
+ return_space (this_ptr->size);
+ free_others (this_ptr->others);
+ free (this_ptr);
+
+ return 0;
+ }
+ else if (next) /* First block */
+ {
+ next->prev = REL_NIL;
+ pointer_list = next;
+ }
+ else if (this_ptr = pointer_list) /* ONLY block */
+ {
+ pointer_list = REL_NIL;
+ last_pointer = REL_NIL;
+ if (holes) /* A hole precedes this block. */
+ {
+ holes = 0;
+ return_space (real_break_value - virtual_break_value);
+ }
+ else
+ return_space (this_ptr->size);
+
+ if (real_break_value != virtual_break_value)
+ abort ();
+
+ free_others (this_ptr->others);
+ free (this_ptr);
+ /* Turn off r_alloc_in_use? */
+
+ return 0;
+ }
+ else
+ abort (); /* Weird shit */
+
+ free_others (this_ptr->others);
+ free (this_ptr);
+ bzero (this_ptr->block, this_ptr->size);
+ note_hole (this_ptr->block, this_ptr->size);
+
+ if (holes == MAX_HOLES)
+ compactify ();
+ }
+
+ return 0;
+}
+
+/* Change the size of the block pointed to by the thing in PTR.
+ If neccessary, r_alloc a new block and copy the data there.
+ Return a pointer to the block if successfull, NULL otherwise.
+
+ Note that if the size requested is less than the actual bloc size,
+ nothing is done and the pointer is simply returned. */
+
+POINTER
+r_re_alloc (ptr, size)
+ POINTER *ptr;
+ int size;
+{
+ register relocatable_pointer *this_ptr = find_block (*ptr);
+ POINTER block;
+
+ if (! this_ptr)
+ return NULL;
+
+ if (this_ptr->size >= size) /* Already have enough space. */
+ return *ptr;
+
+ /* Here we could try relocating the blocks just above... */
+ block = r_alloc (ptr, size);
+ if (block)
+ {
+ bcopy (this_ptr->block, block, this_ptr->size);
+ if (this_ptr->others)
+ last_record->others = this_ptr->others;
+
+ if (! r_alloc_free (this_ptr->block))
+ abort ();
+
+ *ptr = block;
+ return block;
+ }
+
+ return NULL;
+}
+
+
+/* Move and relocate all blocks from FIRST_PTR to LAST_PTR, inclusive,
+ downwards to space starting at ADDRESS. */
+
+static int
+move_blocks_downward (first_ptr, last_ptr, address)
+ relocatable_pointer *first_ptr, *last_ptr;
+ POINTER address;
+{
+ int size = (last_ptr->block + last_ptr->size) - first_ptr->block;
+ register relocatable_pointer *this_ptr = first_ptr;
+ register offset = first_ptr->block - address;
+ register struct other_pointer *op;
+
+ /* Move all the data. */
+ bcopy (first_ptr->block, address, size);
+
+ /* Now relocate all the pointers to those blocks. */
+ while (1)
+ {
+ this_ptr->block -= offset;
+ *this_ptr->location = this_ptr->block;
+
+ op = this_ptr->others;
+ while (op != (struct other_pointer *) 0)
+ {
+ *op->location -= offset;
+ op = op->next;
+ }
+
+ if (this_ptr == last_ptr)
+ return;
+ else
+ this_ptr = this_ptr->next;
+ }
+
+ return size;
+}
+
+/* Burp our memory zone. */
+
+static void
+compactify ()
+{
+ register relocatable_pointer *this_ptr = pointer_list;
+ relocatable_pointer *first_to_move;
+ register relocatable_pointer *last_to_move;
+ hole_descriptor *this_hole = &r_alloc_holes[0];
+ register hole_descriptor *next_hole;
+ register POINTER end; /* First address after hole */
+ unsigned int space_regained = 0;
+
+ while (holes) /* While there are holes */
+ {
+ /* Find the first block after this hole. */
+ end = this_hole->address + this_hole->size;
+ while (this_ptr && this_ptr->block != end)
+ this_ptr = this_ptr->next;
+
+ if (! this_ptr)
+ abort ();
+
+ next_hole = this_hole + 1;
+ last_to_move = first_to_move = this_ptr;
+ this_ptr = this_ptr->next;
+
+ /* Note all blocks located before the next hole. */
+ while (this_ptr && this_ptr->block < next_hole->address)
+ {
+ last_to_move = this_ptr;
+ this_ptr = this_ptr->next;
+ }
+ space_regained +=
+ move_blocks_downward (first_to_move, last_to_move, this_hole->address);
+
+ holes--;
+ this_hole = next_hole;
+ }
+
+ return_space (space_regained);
+}
+
+/* Relocate the list elements from the beginning of the list up to and
+ including UP_TO_THIS_PTR to the area beginning at FREE_SPACE, which is
+ after all current blocks.
+
+ First copy all the data, then adjust the pointers and reorganize
+ the list. NOTE that this *only* works for contiguous blocks. */
+
+static unsigned int
+relocate_to_end (up_to_this_ptr, free_space)
+ register relocatable_pointer *up_to_this_ptr;
+ POINTER free_space;
+{
+ register relocatable_pointer *this_ptr;
+ POINTER block_start = pointer_list->block;
+ POINTER block_end = up_to_this_ptr->block + up_to_this_ptr->size;
+ unsigned int total_size = block_end - block_start;
+ unsigned int offset = (int) (free_space - block_start);
+
+ bcopy (block_start, free_space, total_size);
+ for (this_ptr = up_to_this_ptr; this_ptr; this_ptr = this_ptr->prev)
+ {
+ struct other_pointer *op = this_ptr->others;
+
+ *this_ptr->location += offset;
+ this_ptr->block += offset;
+
+ while (op != (struct other_pointer *) 0)
+ {
+ *op->location += offset;
+ op = op->next;
+ }
+ }
+
+ /* Connect the head to the tail. */
+ last_pointer->next = pointer_list;
+ pointer_list->prev = last_pointer;
+
+ /* Disconnect */
+ up_to_this_ptr->next->prev = REL_NIL;
+ pointer_list = up_to_this_ptr->next;
+ up_to_this_ptr->next = REL_NIL;
+ last_pointer = up_to_this_ptr;
+
+ return total_size; /* of space relocated. */
+}
+
+/* Relocate the list elements from FROM_THIS_PTR to (and including)
+ the last to the zone beginning at FREE_SPACE, which is located
+ before any blocks.
+
+ First copy all the data, then adjust the pointers and reorganize
+ the list. NOTE that this *only* works for contiguous blocks. */
+
+static unsigned int
+relocate_to_beginning (from_this_ptr, free_space)
+ register relocatable_pointer *from_this_ptr;
+ POINTER free_space;
+{
+ POINTER block_start = from_this_ptr->block;
+ POINTER block_end = last_pointer->block + last_pointer->size;
+ unsigned int total_size = (int) (block_end - block_start);
+ unsigned int offset = (int) (from_this_ptr->block - free_space);
+ register relocatable_pointer *this_ptr;
+
+ bcopy (block_start, free_space, total_size);
+ for (this_ptr = from_this_ptr; this_ptr; this_ptr = this_ptr->next)
+ {
+ struct other_pointer *op = this_ptr->others;
+
+ *this_ptr->location -= offset;
+ this_ptr->block -= offset;
+
+ while (op != (struct other_pointer *) 0)
+ {
+ *op->location -= offset;
+ op = op->next;
+ }
+ }
+
+ /* Connect the end to the beginning. */
+ last_pointer->next = pointer_list;
+ pointer_list->prev = last_pointer;
+
+ /* Disconnect and reset first and last. */
+ from_this_ptr->prev->next = REL_NIL;
+ last_pointer = from_this_ptr->prev;
+ pointer_list = from_this_ptr;
+ pointer_list->prev = REL_NIL;
+
+ return total_size; /* of space moved. */
+}
+
+/* Relocate any blocks neccessary, either upwards or downwards,
+ to obtain a space of SIZE bytes. Assumes we have at least one block. */
+
+static unsigned int
+relocate (size)
+ register int size;
+{
+ register relocatable_pointer *ptr;
+ register int got = 0;
+
+ if (size > 0) /* Up: Relocate enough blocs to get SIZE. */
+ {
+ register POINTER new_space;
+
+ for (ptr = pointer_list; got < size && ptr; ptr = ptr->next)
+ got += ptr->size;
+
+ if (ptr == REL_NIL)
+ ptr = last_pointer;
+
+ new_space = get_more_space (size);
+ if (!new_space)
+ return 0;
+
+ return (relocate_to_end (ptr, pointer_list->block + size));
+ }
+
+ if (size < 0) /* Down: relocate as many blocs as will
+ fit in SIZE bytes of space. */
+ {
+ register POINTER to_zone;
+ unsigned int moved;
+
+ for (ptr = last_pointer; got >= size && ptr; ptr = ptr->prev)
+ got -= ptr->size;
+
+ if (ptr == REL_NIL)
+ ptr = pointer_list;
+ else
+ {
+ /* Back off one block to be <= size */
+ got += ptr->size;
+ ptr = ptr->next;
+ }
+
+ if (got >= size)
+ {
+ to_zone = virtual_break_value - size + got;
+ moved = relocate_to_beginning (ptr, to_zone);
+ if (moved)
+ return_space (moved);
+
+ return moved;
+ }
+
+ return 0;
+ }
+
+ abort ();
+}
+
+/* This function encapsulates `sbrk' to preserve the relocatable blocks.
+ It is called just like `sbrk'. When relocatable blocks are in use,
+ `malloc' must use this function instead of `sbrk'. */
+
+POINTER
+r_alloc_sbrk (size)
+ unsigned int size;
+{
+ POINTER new_zone; /* Start of the zone we will return. */
+
+#if 0
+ if (! r_alloc_in_use)
+ return (POINTER) sbrk (size);
+#endif
+
+ if (size == 0)
+ return virtual_break_value;
+
+ if (size > 0) /* Get more space */
+ {
+ register unsigned int space;
+
+ if (pointer_list == REL_NIL)
+ {
+ POINTER space = get_more_space (size);
+
+ virtual_break_value = real_break_value;
+ return space;
+ }
+
+ new_zone = virtual_break_value;
+
+ /* Check if there is a hole just before the buffer zone. */
+ if (holes && r_alloc_holes[0].address == virtual_break_value)
+ {
+ if (r_alloc_holes[0].size > size)
+ {
+ /* Adjust the hole size. */
+ r_alloc_holes[0].size -= size;
+ r_alloc_holes[0].address += size;
+ virtual_break_value += size;
+
+ return new_zone;
+ }
+
+ if (r_alloc_holes[0].size == size)
+ {
+ virtual_break_value += size;
+ delete_hole (0);
+
+ return new_zone;
+ }
+
+ /* Adjust the size requested by space
+ already available in this hole. */
+ size -= r_alloc_holes[0].size;
+ virtual_break_value += r_alloc_holes[0].size;
+ delete_hole (0);
+ }
+
+ space = relocate (size);
+ if (!space)
+ return (POINTER) -1;
+
+#ifdef REL_ALLOC_SAVE_SPACE
+ move_blocks_downward
+#else
+ bzero (new_zone, space);
+ if (space > size)
+ note_hole (new_zone + size, space - size);
+#endif /* REL_ALLOC_SAVE_SPACE */
+
+ virtual_break_value += size;
+ return new_zone;
+ }
+ else /* Return space to system */
+ {
+ int moved;
+ int left_over;
+ POINTER old_break_value;
+
+ if (pointer_list == REL_NIL)
+ {
+ POINTER space = return_space (-size);
+ virtual_break_value = real_break_value;
+
+ return space;
+ }
+
+ if (holes && r_alloc_holes[0].address == virtual_break_value)
+ {
+ size -= r_alloc_holes[0].size;
+ delete_hole (0);
+ }
+
+ moved = relocate (size);
+ old_break_value = virtual_break_value;
+
+ if (!moved)
+ return (POINTER) -1;
+
+ left_over = moved + size;
+ virtual_break_value += size;
+
+ if (left_over)
+ {
+#ifdef REL_ALLOC_SAVE_SPACE
+ move_blocks_downward
+#else
+ bzero (virtual_break_value, left_over);
+ note_hole (virtual_break_value, left_over);
+#endif /* not REL_ALLOC_SAVE_SPACE */
+ }
+
+ return old_break_value;
+ }
+}
+
+/* For debugging */
+
+#include <stdio.h>
+
+void
+memory_trace ()
+{
+ relocatable_pointer *ptr;
+ int i;
+
+ fprintf (stderr, "virtual: 0x%x\n real: 0x%x\n true: 0x%x\n\n",
+ virtual_break_value, real_break_value, true_break_value);
+ fprintf (stderr, "Blocks:\n");
+ for (ptr = pointer_list; ptr; ptr = ptr->next)
+ {
+ fprintf (stderr, " address: 0x%x\n", ptr->block);
+ fprintf (stderr, " size: 0x%x\n", ptr->size);
+ if (ptr->others)
+ {
+ struct other_pointer *op = ptr->others;
+ fprintf (stderr, " others:", ptr->size);
+ while (op)
+ {
+ fprintf (stderr, " 0x%x", op->location);
+ op = op->next;
+ }
+ fprintf (stderr, "\n");
+ }
+ }
+
+ if (holes)
+ {
+ fprintf (stderr, "\nHoles:\n");
+ for (i = 0; i < holes; i++)
+ {
+ fprintf (stderr, " address: 0x%x\n", r_alloc_holes[i].address);
+ fprintf (stderr, " size: 0x%x\n", r_alloc_holes[i].size);
+ }
+ }
+
+ fprintf (stderr, "\n\n");
+}