kb.c


1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59

/*
 * (C)opyright MMVI Anselm R. Garbe <garbeam at gmail dot com>
 * See LICENSE file for license details.
 */

#include "wm.h"

#include <X11/keysym.h>

/********** CUSTOMIZE **********/

char *term[] = { 
	"aterm", "-tr", "+sb", "-bg", "black", "-fg", "white", "-fn",
	"-*-terminus-medium-*-*-*-13-*-*-*-*-*-iso10646-*",NULL
};

static Key key[] = {
	{ Mod1Mask, XK_Return, run, term },
	{ Mod1Mask, XK_k, sel, "prev" }, 
	{ Mod1Mask, XK_j, sel, "next" }, 
	{ Mod1Mask, XK_g, grid, NULL }, 
	{ Mod1Mask, XK_f, floating, NULL }, 
	{ Mod1Mask, XK_m, max, NULL }, 
	{ Mod1Mask | ShiftMask, XK_c, ckill, NULL }, 
	{ Mod1Mask | ShiftMask, XK_q, quit, NULL },
};

/********** CUSTOMIZE **********/

void
update_keys()
{
	unsigned int i, len;
	KeyCode code;

	len = sizeof(key) / sizeof(key[0]);
	for(i = 0; i < len; i++) {
		code = XKeysymToKeycode(dpy, key[i].keysym);
		XUngrabKey(dpy, code, key[i].mod, root);
		XGrabKey(dpy, code, key[i].mod, root, True, GrabModeAsync, GrabModeAsync);
	}
}

void
keypress(XEvent *e)
{
	XKeyEvent *ev = &e->xkey;
	unsigned int i, len;
	KeySym keysym;

	keysym = XKeycodeToKeysym(dpy, (KeyCode)ev->keycode, 0);
	len = sizeof(key) / sizeof(key[0]);
	for(i = 0; i < len; i++)
		if((keysym == key[i].keysym) && (key[i].mod == ev->state)) {
			if(key[i].func)
				key[i].func(key[i].aux);
			return;
		}
}
type sandbox {
  setup: (handle line)
  data: (handle line)
  # display data
  cursor-call-path: (handle call-path-element)
  expanded-words: (handle call-path)
  partial-name-for-cursor-word: (handle word)  # only when renaming word
  partial-name-for-function: (handle word)  # only when defining function
  #
  next: (handle sandbox)
  prev: (handle sandbox)
}

type function {
  name: (handle array byte)
  args: (handle word)  # in reverse order
  body: (handle line)
  # some sort of indication of spatial location
  next: (handle function)
}

type line {
  name: (handle array byte)
  data: (handle word)
  result: (handle result)  # might be cached
  next: (handle line)
  prev: (handle line)
}

type word {
  scalar-data: (handle gap-buffer)
  next: (handle word)
  prev: (handle word)
}

type value {
  type: int
  int-data: int  # if type = 0
  text-data: (handle array byte)  # if type = 1
  array-data: (handle array value)  # if type = 2
  file-data: (handle buffered-file)  # if type = 3
}

type table {
  data: (handle array bind)
  next: (handle table)
}

type bind {
  key: (handle array byte)
  value: (handle value)  # I'd inline this but we sometimes want to return a specific value from a table
}

# A call-path is a data structure that can unambiguously refer to any specific
# call arbitrarily deep inside the call hierarchy of a program.
type call-path {
  data: (handle call-path-element)
  next: (handle call-path)
}

# A call-path element is a list of elements, each of which corresponds to some call.
type call-path-element {
  word: (handle word)
  next: (handle call-path-element)
}

type result {
  data: value-stack
  error: (handle array byte)  # single error message for now
}

fn initialize-sandbox _sandbox: (addr sandbox) {
  var sandbox/esi: (addr sandbox) <- copy _sandbox
  var line-ah/eax: (addr handle line) <- get sandbox, data
  allocate line-ah
  var line/eax: (addr line) <- lookup *line-ah
  initialize-line line
  var word-ah/ecx: (addr handle word) <- get line, data
  var cursor-call-path-ah/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path
  allocate cursor-call-path-ah
  var cursor-call-path/eax: (addr call-path-element) <- lookup *cursor-call-path-ah
  var dest/eax: (addr handle word) <- get cursor-call-path, word
  copy-object word-ah, dest
}

# initialize line with a single empty word
fn initialize-line _line: (addr line) {
  var line/esi: (addr line) <- copy _line
  var word-ah/eax: (addr handle word) <- get line, data
  allocate word-ah
  var word/eax: (addr word) <- lookup *word-ah
  initialize-word word
}

fn create-primitive-functions _self: (addr handle function) {
  # x 2* = x 2 *
  var self/esi: (addr handle function) <- copy _self
  allocate self
  var _f/eax: (addr function) <- lookup *self
  var f/esi: (addr function) <- copy _f
  var name-ah/eax: (addr handle array byte) <- get f, name
  populate-text-with name-ah, "2*"
  var args-ah/eax: (addr handle word) <- get f, args
  allocate args-ah
  var args/eax: (addr word) <- lookup *args-ah
  initialize-word-with args, "x"
  var body-ah/eax: (addr handle line) <- get f, body
  allocate body-ah
  var body/eax: (addr line) <- lookup *body-ah
  initialize-line body
  var curr-word-ah/ecx: (addr handle word) <- get body, data
  # *curr-word = "x"
  allocate curr-word-ah
  var tmp/eax: (addr word) <- lookup *curr-word-ah
  var curr-word/edx: (addr word) <- copy tmp
  initialize-word-with curr-word, "x"
  # *curr-word->next = "2"
  var next-word-ah/ebx: (addr handle word) <- get curr-word, next
  allocate next-word-ah
  tmp <- lookup *next-word-ah
  initialize-word-with tmp, "2"
  # *curr-word->next->prev = curr-word
  var prev-word-ah/edi: (addr handle word) <- get tmp, prev
  copy-object curr-word-ah, prev-word-ah
  # curr-word = curr-word->next
  curr-word-ah <- copy next-word-ah
  curr-word <- copy tmp
  # *curr-word->next = "*"
  next-word-ah <- get curr-word, next
  allocate next-word-ah
  tmp <- lookup *next-word-ah
  initialize-word-with tmp, "*"
  # *curr-word->next->prev = curr-word
  prev-word-ah <- get tmp, prev
  copy-object curr-word-ah, prev-word-ah
  tmp <- lookup *prev-word-ah
  # x 1+ = x 1 +
  var next/esi: (addr handle function) <- get f, next
  allocate next
  var _f/eax: (addr function) <- lookup *next
  var f/esi: (addr function) <- copy _f
  var name-ah/eax: (addr handle array byte) <- get f, name
  populate-text-with name-ah, "1+"
  var args-ah/eax: (addr handle word) <- get f, args
  allocate args-ah
  var args/eax: (addr word) <- lookup *args-ah
  initialize-word-with args, "x"
  var body-ah/eax: (addr handle line) <- get f, body
  allocate body-ah
  var body/eax: (addr line) <- lookup *body-ah
  initialize-line body
  var curr-word-ah/ecx: (addr handle word) <- get body, data
  # *curr-word = "x"
  allocate curr-word-ah
  var tmp/eax: (addr word) <- lookup *curr-word-ah
  curr-word <- copy tmp
  initialize-word-with curr-word, "x"
  # *curr-word->next = "1"
  next-word-ah <- get curr-word, next
  allocate next-word-ah
  tmp <- lookup *next-word-ah
  initialize-word-with tmp, "1"
  # *curr-word->next->prev = curr-word
  prev-word-ah <- get tmp, prev
  copy-object curr-word-ah, prev-word-ah
  # curr-word = curr-word->next
  curr-word-ah <- copy next-word-ah
  curr-word <- copy tmp
  # *curr-word->next = "+"
  next-word-ah <- get curr-word, next
  allocate next-word-ah
  tmp <- lookup *next-word-ah
  initialize-word-with tmp, "+"
  # *curr-word->next->prev = curr-word
  prev-word-ah <- get tmp, prev
  copy-object curr-word-ah, prev-word-ah
  tmp <- lookup *prev-word-ah
  # x 2+ = x 1+ 1+
  var next/esi: (addr handle function) <- get f, next
  allocate next
  var _f/eax: (addr function) <- lookup *next
  var f/esi: (addr function) <- copy _f
  var name-ah/eax: (addr handle array byte) <- get f, name
  populate-text-with name-ah, "2+"
  var args-ah/eax: (addr handle word) <- get f, args
  allocate args-ah
  var args/eax: (addr word) <- lookup *args-ah
  initialize-word-with args, "x"
  var body-ah/eax: (addr handle line) <- get f, body
  allocate body-ah
  var body/eax: (addr line) <- lookup *body-ah
  initialize-line body
  var curr-word-ah/ecx: (addr handle word) <- get body, data
  # *curr-word = "x"
  allocate curr-word-ah
  var tmp/eax: (addr word) <- lookup *curr-word-ah
  curr-word <- copy tmp
  initialize-word-with curr-word, "x"
  # *curr-word->next = "1+"
  next-word-ah <- get curr-word, next
  allocate next-word-ah
  tmp <- lookup *next-word-ah
  initialize-word-with tmp, "1+"
  # *curr-word->next->prev = curr-word
  prev-word-ah <- get tmp, prev
  copy-object curr-word-ah, prev-word-ah
  # curr-word = curr-word->next
  curr-word-ah <- copy next-word-ah
  curr-word <- copy tmp
  # *curr-word->next = "1+"
  next-word-ah <- get curr-word, next
  allocate next-word-ah
  tmp <- lookup *next-word-ah
  initialize-word-with tmp, "1+"
  # *curr-word->next->prev = curr-word
  prev-word-ah <- get tmp, prev
  copy-object curr-word-ah, prev-word-ah
  tmp <- lookup *prev-word-ah
  # x square = x x *
  var next/esi: (addr handle function) <- get f, next
  allocate next
  var _f/eax: (addr function) <- lookup *next
  var f/esi: (addr function) <- copy _f
  var name-ah/eax: (addr handle array byte) <- get f, name
  populate-text-with name-ah, "square"
  var args-ah/eax: (addr handle word) <- get f, args
  allocate args-ah
  var args/eax: (addr word) <- lookup *args-ah
  initialize-word-with args, "x"
  var body-ah/eax: (addr handle line) <- get f, body
  allocate body-ah
  var body/eax: (addr line) <- lookup *body-ah
  initialize-line body
  var curr-word-ah/ecx: (addr handle word) <- get body, data
  # *curr-word = "x"
  allocate curr-word-ah
  var tmp/eax: (addr word) <- lookup *curr-word-ah
  var curr-word/edx: (addr word) <- copy tmp
  initialize-word-with curr-word, "x"
  # *curr-word->next = "x"
  var next-word-ah/ebx: (addr handle word) <- get curr-word, next
  allocate next-word-ah
  tmp <- lookup *next-word-ah
  initialize-word-with tmp, "x"
  # *curr-word->next->prev = curr-word
  var prev-word-ah/edi: (addr handle word) <- get tmp, prev
  copy-object curr-word-ah, prev-word-ah
  # curr-word = curr-word->next
  curr-word-ah <- copy next-word-ah
  curr-word <- copy tmp
  # *curr-word->next = "*"
  next-word-ah <- get curr-word, next
  allocate next-word-ah
  tmp <- lookup *next-word-ah
  initialize-word-with tmp, "*"
  # *curr-word->next->prev = curr-word
  prev-word-ah <- get tmp, prev
  copy-object curr-word-ah, prev-word-ah
  tmp <- lookup *prev-word-ah
  # x 1- = x 1 -
  var next/esi: (addr handle function) <- get f, next
  allocate next
  var _f/eax: (addr function) <- lookup *next
  var f/esi: (addr function) <- copy _f
  var name-ah/eax: (addr handle array byte) <- get f, name
  populate-text-with name-ah, "1-"
  var args-ah/eax: (addr handle word) <- get f, args
  allocate args-ah
  var args/eax: (addr word) <- lookup *args-ah
  initialize-word-with args, "x"
  var body-ah/eax: (addr handle line) <- get f, body
  allocate body-ah
  var body/eax: (addr line) <- lookup *body-ah
  initialize-line body
  var curr-word-ah/ecx: (addr handle word) <- get body, data
  # *curr-word = "x"
  allocate curr-word-ah
  var tmp/eax: (addr word) <- lookup *curr-word-ah
  curr-word <- copy tmp
  initialize-word-with curr-word, "x"
  # *curr-word->next = "1"
  next-word-ah <- get curr-word, next
  allocate next-word-ah
  tmp <- lookup *next-word-ah
  initialize-word-with tmp, "1"
  # *curr-word->next->prev = curr-word
  prev-word-ah <- get tmp, prev
  copy-object curr-word-ah, prev-word-ah
  # curr-word = curr-word->next
  curr-word-ah <- copy next-word-ah
  curr-word <- copy tmp
  # *curr-word->next = "-"
  next-word-ah <- get curr-word, next
  allocate next-word-ah
  tmp <- lookup *next-word-ah
  initialize-word-with tmp, "-"
  # *curr-word->next->prev = curr-word
  prev-word-ah <- get tmp, prev
  copy-object curr-word-ah, prev-word-ah
  tmp <- lookup *prev-word-ah
  # x y sub = x y -
  var next/esi: (addr handle function) <- get f, next
  allocate next
  var _f/eax: (addr function) <- lookup *next
  var f/esi: (addr function) <- copy _f
  var name-ah/eax: (addr handle array byte) <- get f, name
  populate-text-with name-ah, "sub"
  # critical lesson: args are stored in reverse order
  var args-ah/eax: (addr handle word) <- get f, args
  allocate args-ah
  var args/eax: (addr word) <- lookup *args-ah
  initialize-word-with args, "y"
  var next-arg-ah/eax: (addr handle word) <- get args, next
  allocate next-arg-ah
  var next-arg/eax: (addr word) <- lookup *next-arg-ah
  initialize-word-with next-arg, "x"
  var body-ah/eax: (addr handle line) <- get f, body
  allocate body-ah
  var body/eax: (addr line) <- lookup *body-ah
  initialize-line body
  var curr-word-ah/ecx: (addr handle word) <- get body, data
  # *curr-word = "x"
  allocate curr-word-ah
  var tmp/eax: (addr word) <- lookup *curr-word-ah
  curr-word <- copy tmp
  initialize-word-with curr-word, "x"
  # *curr-word->next = "y"
  next-word-ah <- get curr-word, next
  allocate next-word-ah
  tmp <- lookup *next-word-ah
  initialize-word-with tmp, "y"
  # *curr-word->next->prev = curr-word
  prev-word-ah <- get tmp, prev
  copy-object curr-word-ah, prev-word-ah
  # curr-word = curr-word->next
  curr-word-ah <- copy next-word-ah
  curr-word <- copy tmp
  # *curr-word->next = "-"
  next-word-ah <- get curr-word, next
  allocate next-word-ah
  tmp <- lookup *next-word-ah
  initialize-word-with tmp, "-"
  # *curr-word->next->prev = curr-word
  prev-word-ah <- get tmp, prev
  copy-object curr-word-ah, prev-word-ah
  tmp <- lookup *prev-word-ah
}

fn function-body functions: (addr handle function), _word: (addr handle word), out: (addr handle line) {
  var function-name-storage: (handle array byte)
  var function-name-ah/ecx: (addr handle array byte) <- address function-name-storage
  var word-ah/esi: (addr handle word) <- copy _word
  var word/eax: (addr word) <- lookup *word-ah
  var gap-ah/eax: (addr handle gap-buffer) <- get word, scalar-data
  var gap/eax: (addr gap-buffer) <- lookup *gap-ah
  gap-buffer-to-string gap, function-name-ah
  var _function-name/eax: (addr array byte) <- lookup *function-name-ah
  var function-name/esi: (addr array byte) <- copy _function-name
  var curr-ah/ecx: (addr handle function) <- copy functions
  $function-body:loop: {
    var _curr/eax: (addr function) <- lookup *curr-ah
    var curr/edx: (addr function) <- copy _curr
    compare curr, 0
    break-if-=
    var curr-name-ah/eax: (addr handle array byte) <- get curr, name
    var curr-name/eax: (addr array byte) <- lookup *curr-name-ah
    var found?/eax: boolean <- string-equal? curr-name, function-name
    compare found?, 0  # false
    {
      break-if-=
      var src/eax: (addr handle line) <- get curr, body
      copy-object src, out
      break $function-body:loop
    }
    curr-ah <- get curr, next
    loop
  }
}

fn body-length functions: (addr handle function), function-name: (addr handle word) -> result/eax: int {
  var body-storage: (handle line)
  var body-ah/edi: (addr handle line) <- address body-storage
  function-body functions, function-name, body-ah
  var body/eax: (addr line) <- lookup *body-ah
  result <- line-length body
}

fn line-length _in: (addr line) -> result/eax: int {
  var in/esi: (addr line) <- copy _in
  var curr-ah/ecx: (addr handle word) <- get in, data
  var out/edi: int <- copy 0
  {
    var curr/eax: (addr word) <- lookup *curr-ah
    compare curr, 0
    break-if-=
    curr-ah <- get curr, next
    out <- increment
    loop
  }
  result <- copy out
}

fn populate-text-with _out: (addr handle array byte), _in: (addr array byte) {
  var in/esi: (addr array byte) <- copy _in
  var n/ecx: int <- length in
  var out/edx: (addr handle array byte) <- copy _out
  populate out, n
  var _out-addr/eax: (addr array byte) <- lookup *out
  var out-addr/edx: (addr array byte) <- copy _out-addr
  var i/eax: int <- copy 0
  {
    compare i, n
    break-if->=
    var src/esi: (addr byte) <- index in, i
    var val/ecx: byte <- copy-byte *src
    var dest/edi: (addr byte) <- index out-addr, i
    copy-byte-to *dest, val
    i <- increment
    loop
  }
}

fn initialize-path-from-sandbox _in: (addr sandbox), _out: (addr handle call-path-element) {
  var sandbox/esi: (addr sandbox) <- copy _in
  var line-ah/eax: (addr handle line) <- get sandbox, data
  var line/eax: (addr line) <- lookup *line-ah
  var src/esi: (addr handle word) <- get line, data
  var out-ah/edi: (addr handle call-path-element) <- copy _out
  var out/eax: (addr call-path-element) <- lookup *out-ah
  var dest/edi: (addr handle word) <- get out, word
  copy-object src, dest
}

fn initialize-path-from-line _line: (addr line), _out: (addr handle call-path-element) {
  var line/eax: (addr line) <- copy _line
  var src/esi: (addr handle word) <- get line, data
  var out-ah/edi: (addr handle call-path-element) <- copy _out
  var out/eax: (addr call-path-element) <- lookup *out-ah
  var dest/edi: (addr handle word) <- get out, word
  copy-object src, dest
}

fn find-in-call-paths call-paths: (addr handle call-path), needle: (addr handle call-path-element) -> result/eax: boolean {
  var curr-ah/esi: (addr handle call-path) <- copy call-paths
  var out/edi: boolean <- copy 0  # false
  $find-in-call-path:loop: {
    var curr/eax: (addr call-path) <- lookup *curr-ah
    compare curr, 0
    break-if-=
    {
      var curr-data/eax: (addr handle call-path-element) <- get curr, data
      var match?/eax: boolean <- call-path-element-match? curr-data, needle
      compare match?, 0  # false
      {
        break-if-=
        out <- copy 1  # true
        break $find-in-call-path:loop
      }
    }
    curr-ah <- get curr, next
    loop
  }
  result <- copy out
}

fn call-path-element-match? _x: (addr handle call-path-element), _y: (addr handle call-path-element) -> result/eax: boolean {
$call-path-element-match?:body: {
  var x-ah/eax: (addr handle call-path-element) <- copy _x
  var x-a/eax: (addr call-path-element) <- lookup *x-ah
  var x/esi: (addr call-path-element) <- copy x-a
  var y-ah/eax: (addr handle call-path-element) <- copy _y
  var y-a/eax: (addr call-path-element) <- lookup *y-ah
  var y/edi: (addr call-path-element) <- copy y-a
  compare x, y
  {
    break-if-!=
    result <- copy 1  # true
    break $call-path-element-match?:body
  }
  compare x, 0
  {
    break-if-!=
    result <- copy 0  # false
    break $call-path-element-match?:body
  }
  compare y, 0
  {
    break-if-!=
    result <- copy 0  # false
    break $call-path-element-match?:body
  }
  # compare word addresses, not contents
  var x-data-ah/ecx: (addr handle word) <- get x, word
  var x-data-a/eax: (addr word) <- lookup *x-data-ah
  var x-data/ecx: int <- copy x-data-a
  var y-data-ah/eax: (addr handle word) <- get y, word
  var y-data-a/eax: (addr word) <- lookup *y-data-ah
  var y-data/eax: int <- copy y-data-a
#?   print-string 0, "match? "
#?   print-int32-hex 0, x-data
#?   print-string 0, " vs "
#?   print-int32-hex 0, y-data
#?   print-string 0, "\n"
  compare x-data, y-data
  {
    break-if-=
    result <- copy 0  # false
    break $call-path-element-match?:body
  }
  var x-next/ecx: (addr handle call-path-element) <- get x, next
  var y-next/eax: (addr handle call-path-element) <- get y, next
  result <- call-path-element-match? x-next, y-next
}
}

# order is irrelevant
fn insert-in-call-path list: (addr handle call-path), new: (addr handle call-path-element) {
  var new-path-storage: (handle call-path)
  var new-path-ah/edi: (addr handle call-path) <- address new-path-storage
  allocate new-path-ah
  var new-path/eax: (addr call-path) <- lookup *new-path-ah
  var next/ecx: (addr handle call-path) <- get new-path, next
  copy-object list, next
  var dest/ecx: (addr handle call-path-element) <- get new-path, data
  deep-copy-call-path-element new, dest
  copy-object new-path-ah, list
}

# assumes dest is initially clear
fn deep-copy-call-path-element _src: (addr handle call-path-element), _dest: (addr handle call-path-element) {
  var src/esi: (addr handle call-path-element) <- copy _src
  # if src is null, return
  var _src-addr/eax: (addr call-path-element) <- lookup *src
  compare _src-addr, 0
  break-if-=
  # allocate
  var src-addr/esi: (addr call-path-element) <- copy _src-addr
  var dest/eax: (addr handle call-path-element) <- copy _dest
  allocate dest
  # copy data
  var dest-addr/eax: (addr call-path-element) <- lookup *dest
  {
    var dest-data-addr/ecx: (addr handle word) <- get dest-addr, word
    var src-data-addr/eax: (addr handle word) <- get src-addr, word
    copy-object src-data-addr, dest-data-addr
  }
  # recurse
  var src-next/esi: (addr handle call-path-element) <- get src-addr, next
  var dest-next/eax: (addr handle call-path-element) <- get dest-addr, next
  deep-copy-call-path-element src-next, dest-next
}

fn delete-in-call-path list: (addr handle call-path), needle: (addr handle call-path-element) {
$delete-in-call-path:body: {
  var curr-ah/esi: (addr handle call-path) <- copy list
  $delete-in-call-path:loop: {
    var _curr/eax: (addr call-path) <- lookup *curr-ah
    var curr/ecx: (addr call-path) <- copy _curr
    compare curr, 0
    break-if-=
    {
      var curr-data/eax: (addr handle call-path-element) <- get curr, data
      var match?/eax: boolean <- call-path-element-match? curr-data, needle
      compare match?, 0  # false
      {
        break-if-=
        var next-ah/ecx: (addr handle call-path) <- get curr, next
        copy-object next-ah, curr-ah
        loop $delete-in-call-path:loop
      }
    }
    curr-ah <- get curr, next
    loop
  }
}
}

fn increment-final-element list: (addr handle call-path-element) {
  var final-ah/eax: (addr handle call-path-element) <- copy list
  var final/eax: (addr call-path-element) <- lookup *final-ah
  var val-ah/ecx: (addr handle word) <- get final, word
  var val/eax: (addr word) <- lookup *val-ah
  var new-ah/edx: (addr handle word) <- get val, next
  var target/eax: (addr word) <- lookup *new-ah
  compare target, 0
  break-if-=
  copy-object new-ah, val-ah
}

fn decrement-final-element list: (addr handle call-path-element) {
  var final-ah/eax: (addr handle call-path-element) <- copy list
  var final/eax: (addr call-path-element) <- lookup *final-ah
  var val-ah/ecx: (addr handle word) <- get final, word
  var val/eax: (addr word) <- lookup *val-ah
#?   print-string 0, "replacing "
#?   {
#?     var foo/eax: int <- copy val
#?     print-int32-hex 0, foo
#?   }
  var new-ah/edx: (addr handle word) <- get val, prev
  var target/eax: (addr word) <- lookup *new-ah
  compare target, 0
  break-if-=
  # val = val->prev
#?   print-string 0, " with "
#?   {
#?     var foo/eax: int <- copy target
#?     print-int32-hex 0, foo
#?   }
#?   print-string 0, "\n"
  copy-object new-ah, val-ah
}

fn move-final-element-to-start-of-line list: (addr handle call-path-element) {
  var final-ah/eax: (addr handle call-path-element) <- copy list
  var final/eax: (addr call-path-element) <- lookup *final-ah
  var val-ah/ecx: (addr handle word) <- get final, word
  var val/eax: (addr word) <- lookup *val-ah
  var new-ah/edx: (addr handle word) <- get val, prev
  var target/eax: (addr word) <- lookup *new-ah
  compare target, 0
  break-if-=
  copy-object new-ah, val-ah
  move-final-element-to-start-of-line list
}

fn push-to-call-path-element list: (addr handle call-path-element), new: (addr handle word) {
  var new-element-storage: (handle call-path-element)
  var new-element-ah/edi: (addr handle call-path-element) <- address new-element-storage
  allocate new-element-ah
  var new-element/eax: (addr call-path-element) <- lookup *new-element-ah
  # save word
  var dest/ecx: (addr handle word) <- get new-element, word
  copy-object new, dest
  # save next
  var dest2/ecx: (addr handle call-path-element) <- get new-element, next
  copy-object list, dest2
  # return
  copy-object new-element-ah, list
}

fn drop-from-call-path-element _list: (addr handle call-path-element) {
  var list-ah/esi: (addr handle call-path-element) <- copy _list
  var list/eax: (addr call-path-element) <- lookup *list-ah
  var next/eax: (addr handle call-path-element) <- get list, next
  copy-object next, _list
}

fn drop-nested-calls _list: (addr handle call-path-element) {
  var list-ah/esi: (addr handle call-path-element) <- copy _list
  var list/eax: (addr call-path-element) <- lookup *list-ah
  var next-ah/edi: (addr handle call-path-element) <- get list, next
  var next/eax: (addr call-path-element) <- lookup *next-ah
  compare next, 0
  break-if-=
  copy-object next-ah, _list
  drop-nested-calls _list
}

fn dump-call-path-element screen: (addr screen), _x-ah: (addr handle call-path-element) {
$dump-call-path-element:body: {
  var x-ah/ecx: (addr handle call-path-element) <- copy _x-ah
  var _x/eax: (addr call-path-element) <- lookup *x-ah
  var x/esi: (addr call-path-element) <- copy _x
  var word-ah/eax: (addr handle word) <- get x, word
  var word/eax: (addr word) <- lookup *word-ah
  print-word screen, word
  var next-ah/ecx: (addr handle call-path-element) <- get x, next
  var next/eax: (addr call-path-element) <- lookup *next-ah
  compare next, 0
  {
    break-if-=
    print-string screen, " "
    dump-call-path-element screen, next-ah
    break $dump-call-path-element:body
  }
  {
    break-if-!=
    print-string screen, "\n"
  }
}
}

fn dump-call-paths screen: (addr screen), _x-ah: (addr handle call-path) {
$dump-call-paths:body: {
  var x-ah/ecx: (addr handle call-path) <- copy _x-ah
  var x/eax: (addr call-path) <- lookup *x-ah
  compare x, 0
  break-if-=
  var src/ecx: (addr handle call-path-element) <- get x, data
  dump-call-path-element screen, src
  var next-ah/ecx: (addr handle call-path) <- get x, next
  var next/eax: (addr call-path) <- lookup *next-ah
  compare next, 0
  {
    break-if-=
    dump-call-paths screen, next-ah
    break $dump-call-paths:body
  }
}
}