LRESULT CALLBACK WndProc(HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam)
{
switch (message)
{
case WM_COMMAND:
tray_callback(LOWORD(wParam));
break;
case WM_DESTROY:
exit_loop();
break;
case WM_MYMESSAGE:
switch(lParam)
{
case WM_RBUTTONUP:
ShowMenu(hWnd);
break;
case WM_LBUTTONUP:
tray_callback(-1);
break;
default:
return DefWindowProc(hWnd, message, wParam, lParam);
};
break;
default:
return DefWindowProc(hWnd, message, wParam, lParam);
}
return 0;
}
static void
map_bbi_loop()
{
Queue worklist;
tcfg_node_t *src, *dst;
tcfg_edge_t *e;
init_queue(&worklist, sizeof(tcfg_node_t *));
enqueue(&worklist, &tcfg[0]);
tcfg[0]->flags = 1;
while (!queue_empty(&worklist)) {
src = *((tcfg_node_t **) dequeue(&worklist));
for (e = src->out; e != NULL; e = e->next_out) {
dst = e->dst;
if (exit_loop(e))
deal_exit_edge(e);
else if (dst->flags == 0)
deal_other_edge(e);
if (dst->flags == 0) {
enqueue(&worklist, &dst);
dst->flags = 1;
}
}
}
clear_bbi_flags();
free_queue(&worklist);
}
e_int32 lm_uninit() {
exit_loop();
killthread(lm->main_thread);
semaphore_destroy(&lm->wakeup);
memset(lm, 0, sizeof(laser_machine_t));
}
void generate_component(component comp, const char *mlabel, bool discard, fncode fn)
{
clist args;
switch (comp->vclass)
{
case c_assign:
{
u16 offset;
mtype t;
variable_class vclass = env_lookup(comp->l, comp->u.assign.symbol, &offset, &t, FALSE);
component val = comp->u.assign.value;
if (val->vclass == c_closure)
{
/* Defining a function, give it a name */
if (vclass == global_var)
val->u.closure->varname = comp->u.assign.symbol;
else
{
char *varname = allocate(fnmemory(fn), strlen(comp->u.assign.symbol) + 7);
sprintf(varname, "local-%s", comp->u.assign.symbol);
val->u.closure->varname = varname;
}
}
generate_component(comp->u.assign.value, NULL, FALSE, fn);
if (t != stype_any)
ins0(OPmscheck4 + t, fn);
if (vclass == global_var)
massign(comp->l, offset, comp->u.assign.symbol, fn);
else if (vclass == closure_var)
ins1(OPmwritec, offset, fn);
else
ins1(OPmwritel, offset, fn);
/* Note: varname becomes a dangling pointer when fnmemory(fn) is
deallocated, but it is never used again so this does not cause
a problem. */
break;
}
case c_recall:
scompile_recall(comp->l, comp->u.recall, fn);
break;
case c_constant:
ins_constant(make_constant(comp->u.cst, FALSE, fn), fn);
break;
case c_scheme:
scheme_compile_mgc(comp->l, make_constant(comp->u.cst, TRUE, fn), discard, fn);
discard = FALSE;
break;
case c_closure:
generate_function(comp->u.closure, fn);
break;
case c_block:
generate_block(comp->u.blk, discard, fn);
discard = FALSE;
break;
case c_decl:
{
vlist decl, next;
/* declare variables one at a time (any x = y, y = 2; is an error) */
for (decl = comp->u.decls; decl; decl = next)
{
next = decl->next;
decl->next = NULL;
env_declare(decl);
generate_decls(decl, fn);
}
generate_component(component_undefined, NULL, FALSE, fn);
break;
}
case c_labeled: {
start_block(comp->u.labeled.name, FALSE, discard, fn);
generate_component(comp->u.labeled.expression, comp->u.labeled.name, discard, fn);
end_block(fn);
discard = FALSE;
break;
}
case c_exit:
{
bool discard_exit;
label exitlab = exit_block(comp->u.labeled.name, FALSE, &discard_exit, fn);
if (comp->u.labeled.expression != component_undefined && discard_exit)
warning(comp->l, "break result is ignored");
generate_component(comp->u.labeled.expression, NULL, discard_exit, fn);
if (exitlab)
branch(OPmba3, exitlab, fn);
else
{
if (!comp->u.labeled.name)
log_error(comp->l, "No loop to exit from");
else
log_error(comp->l, "No block labeled %s", comp->u.labeled.name);
}
/* Callers expect generate_component to increase stack depth by 1 */
if (discard_exit)
adjust_depth(1, fn);
break;
}
case c_continue:
{
bool discard_exit; /* Meaningless for continue blocks */
label exitlab = exit_block(comp->u.labeled.name, TRUE, &discard_exit, fn);
if (exitlab)
branch(OPmba3, exitlab, fn);
else
{
if (comp->u.labeled.name[0] == '<')
log_error(comp->l, "No loop to continue");
else
log_error(comp->l, "No loop labeled %s", comp->u.labeled.name);
}
/* Callers expect generate_component to increase stack depth by 1 (*/
adjust_depth(1, fn);
break;
}
case c_execute:
{
u16 count;
generate_args(comp->u.execute->next, fn, &count);
generate_execute(comp->u.execute->c, count, fn);
break;
}
case c_builtin:
args = comp->u.builtin.args;
switch (comp->u.builtin.fn)
{
case b_if:
generate_if(args->c, args->next->c, NULL, TRUE, fn);
generate_component(component_undefined, NULL, FALSE, fn);
break;
case b_ifelse:
generate_if(args->c, args->next->c, args->next->next->c, discard, fn);
discard = FALSE;
break;
case b_sc_and: case b_sc_or:
generate_if(comp, component_true, component_false, discard, fn);
discard = FALSE;
break;
case b_while:
enter_loop(fn);
generate_while(args->c, args->next->c, mlabel, discard, fn);
exit_loop(fn);
discard = FALSE;
break;
case b_dowhile:
enter_loop(fn);
generate_dowhile(args->c, args->next->c, mlabel, discard, fn);
exit_loop(fn);
discard = FALSE;
break;
case b_for:
enter_loop(fn);
generate_for(args->c, args->next->c, args->next->next->c,
args->next->next->next->c, mlabel, discard, fn);
exit_loop(fn);
discard = FALSE;
break;
default:
{
u16 count;
assert(comp->u.builtin.fn < last_builtin);
generate_args(args, fn, &count);
ins0(builtin_ops[comp->u.builtin.fn], fn);
break;
}
case b_cons:
{
u16 count;
u16 goffset;
mtype t;
assert(comp->u.builtin.fn < last_builtin);
generate_args(args, fn, &count);
goffset = global_lookup(fnglobals(fn),
builtin_functions[comp->u.builtin.fn], &t);
mexecute(comp->l, goffset, NULL, count, fn);
break;
}
}
break;
default: assert(0);
}
if (discard)
ins0(OPmpop, fn);
}
