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fgdata/Nasal/debug.nas

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# debug.nas -- debugging helpers
#
# debug.dump(<variable>) ... dumps full contents of variable
# debug.backtrace([<comment:string>]} ... writes backtrace with local variables
# (similar to gdb's "bt full)
# debug.exit() ... exits fgfs
#
# debug.bt ... abbreviation for debug.backtrace
# enable colors on Unix (checks second character in module path for colon)
#
if (caller(0)[2][1] != `:`) {
_c = func(color, s) { "\x1b[" ~ color ~ "m" ~ s ~ "\x1b[m" }
} else {
_c = func(dummy, s) { s }
}
# for color codes see $ man console_codes
#
_title = func(s) { _c("33;42;1", s) } # backtrace header
_section = func(s) { _c("37;41;1", s) } # backtrace frame
_nil = func(s) { _c("32", s) } # nil
_string = func(s) { _c("31", s) } # "foo"
_num = func(s) { _c("31", s) } # 0.0
_bracket = func(s) { _c("", s) } # [ ]
_brace = func(s) { _c("", s) } # { }
_angle = func(s) { _c("", s) } # < >
_vartype = func(s) { _c("33", s) } # func ghost
_proptype = func(s) { _c("34", s) } # BOOL INT LONG DOUBLE ...
_path = func(s) { _c("36", s) } # /some/property/path
_internal = func(s) { _c("35", s) } # me parents
_varname = func(s) { _c("1", s) } # variable_name
_dump_prop = func(p) {
var attrib =
(!p.getAttribute("read") ? "r" : "") ~
(!p.getAttribute("write") ? "w" : "") ~
(p.getAttribute("trace-read") ? "R" : "") ~
(p.getAttribute("trace-write") ? "W" : "") ~
(p.getAttribute("archive") ? "A" : "") ~
(p.getAttribute("userarchive") ? "U" : "") ~
(p.getAttribute("tied") ? "T" : "");
var type = "(" ~ _proptype(p.getType()) ~ (size(attrib) ? ", " ~ attrib : "") ~ ")";
return _path(p.getPath()) ~ "=" ~ _dump(p.getValue()) ~ " " ~ type;
}
_dump_var = func(v) {
if (v == "me" or v == "parents") {
return _internal(v);
} else {
return _varname(v);
}
}
_dump = func(o) {
var t = typeof(o);
if (t == "nil") {
return _nil("nil");
} elsif (t == "scalar") {
return num(o) == nil ? _string('"' ~ o ~ '"') : _num(o);
} elsif (t == "vector") {
var result = _bracket("[") ~ " ";
forindex (var i; o) {
result ~= (i == 0 ? "" : ", ") ~ _dump(o[i]);
}
return result ~ " " ~ _bracket("]");
} elsif (t == "hash") {
if (contains(o, "parents") and typeof(o.parents) == "vector"
and size(o.parents) == 1 and o.parents[0] == props.Node) {
return _angle("<") ~ _dump_prop(o) ~ _angle(">");
}
var k = keys(o);
var result = _brace("{") ~ " ";
forindex (var i; k) {
result ~= (i == 0 ? "" : ", ") ~ _dump_var(k[i]) ~ " : " ~ _dump(o[k[i]]);
}
return result ~ " " ~ _brace("}");
} else {
return _angle("<") ~ _vartype(t) ~ _angle(">");
}
}
dump = func(o = nil) { print(_dump(o != nil ? o : caller()[0])) }
backtrace = func(desc = nil, l = 0) {
var v = caller(l);
if (v == nil) {
return;
}
if (l == 0) {
var d = desc == nil ? "" : " '" ~ desc ~ "'";
print("\n" ~ _title("\n### backtrace" ~ d ~ " ###"));
} else {
print(_section(sprintf("#%-2d called from %s, line %s:", l - 1, v[2], v[3])));
dump(v[0]);
}
backtrace(nil, l + 1);
}
bt = backtrace;
exit = func { fgcommand("exit", props.Node.new()) }
if (getprop("/sim/logging/priority") != "alert") {
_setlistener("/sim/signals/nasal-dir-initialized", func { print(_c("32", "** NASAL initialized **")) });
_setlistener("/sim/signals/fdm-initialized", func { print(_c("36", "** FDM initialized **")) });
}