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libcubescript/src/cubescript.cc

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#include <cubescript/cubescript.hh>
#include "cs_vm.hh"
namespace cscript {
cs_string intstr(cs_int v) {
auto app = ostd::appender<cs_string>();
cscript::util::format_int(app, v);
return std::move(app.get());
}
cs_string floatstr(cs_float v) {
auto app = ostd::appender<cs_string>();
cscript::util::format_float(app, v);
return std::move(app.get());
}
bool cs_check_num(ostd::string_range s) {
if (isdigit(s[0])) {
return true;
}
switch (s[0]) {
case '+':
case '-':
return isdigit(s[1]) || ((s[1] == '.') && isdigit(s[2]));
case '.':
return isdigit(s[1]) != 0;
default:
return false;
}
}
cs_ident::cs_ident(cs_ident_type tp, ostd::string_range nm, int fl):
p_name(nm), p_type(int(tp)), p_flags(fl)
{}
cs_var::cs_var(cs_ident_type tp, ostd::string_range name, cs_var_cb f, int fl):
cs_ident(tp, name, fl), cb_var(std::move(f))
{}
cs_ivar::cs_ivar(
ostd::string_range name, cs_int m, cs_int x, cs_int v, cs_var_cb f, int fl
):
cs_var(cs_ident_type::Ivar, name, std::move(f), fl | ((m > x) ? CS_IDF_READONLY : 0)),
p_storage(v), p_minval(m), p_maxval(x), p_overrideval(0)
{}
cs_fvar::cs_fvar(
ostd::string_range name, cs_float m, cs_float x, cs_float v, cs_var_cb f, int fl
):
cs_var(cs_ident_type::Fvar, name, std::move(f), fl | ((m > x) ? CS_IDF_READONLY : 0)),
p_storage(v), p_minval(m), p_maxval(x), p_overrideval(0)
{}
cs_svar::cs_svar(ostd::string_range name, cs_string v, cs_var_cb f, int fl):
cs_var(cs_ident_type::Svar, name, std::move(f), fl),
p_storage(std::move(v)), p_overrideval()
{}
cs_alias::cs_alias(ostd::string_range name, cs_string a, int fl):
cs_ident(cs_ident_type::Alias, name, fl),
p_acode(nullptr), p_astack(nullptr)
{
p_val.set_str(std::move(a));
}
cs_alias::cs_alias(ostd::string_range name, cs_int a, int fl):
cs_ident(cs_ident_type::Alias, name, fl),
p_acode(nullptr), p_astack(nullptr)
{
p_val.set_int(a);
}
cs_alias::cs_alias(ostd::string_range name, cs_float a, int fl):
cs_ident(cs_ident_type::Alias, name, fl),
p_acode(nullptr), p_astack(nullptr)
{
p_val.set_float(a);
}
cs_alias::cs_alias(ostd::string_range name, int fl):
cs_ident(cs_ident_type::Alias, name, fl),
p_acode(nullptr), p_astack(nullptr)
{
p_val.set_null();
}
cs_alias::cs_alias(ostd::string_range name, cs_value v, int fl):
cs_ident(cs_ident_type::Alias, name, fl),
p_acode(nullptr), p_astack(nullptr), p_val(std::move(v))
{}
cs_command::cs_command(
ostd::string_range name, ostd::string_range args,
int nargs, cs_command_cb f
):
cs_ident(cs_ident_type::Command, name, 0),
p_cargs(args), p_cb_cftv(std::move(f)), p_numargs(nargs)
{}
bool cs_ident::is_alias() const {
return get_type() == cs_ident_type::Alias;
}
cs_alias *cs_ident::get_alias() {
if (!is_alias()) {
return nullptr;
}
return static_cast<cs_alias *>(this);
}
cs_alias const *cs_ident::get_alias() const {
if (!is_alias()) {
return nullptr;
}
return static_cast<cs_alias const *>(this);
}
bool cs_ident::is_command() const {
return get_type() == cs_ident_type::Command;
}
cs_command *cs_ident::get_command() {
if (!is_command()) {
return nullptr;
}
return static_cast<cs_command *>(this);
}
cs_command const *cs_ident::get_command() const {
if (!is_command()) {
return nullptr;
}
return static_cast<cs_command const *>(this);
}
bool cs_ident::is_special() const {
return get_type() == cs_ident_type::Special;
}
bool cs_ident::is_var() const {
cs_ident_type tp = get_type();
return (tp >= cs_ident_type::Ivar) && (tp <= cs_ident_type::Svar);
}
cs_var *cs_ident::get_var() {
if (!is_var()) {
return nullptr;
}
return static_cast<cs_var *>(this);
}
cs_var const *cs_ident::get_var() const {
if (!is_var()) {
return nullptr;
}
return static_cast<cs_var const *>(this);
}
bool cs_ident::is_ivar() const {
return get_type() == cs_ident_type::Ivar;
}
cs_ivar *cs_ident::get_ivar() {
if (!is_ivar()) {
return nullptr;
}
return static_cast<cs_ivar *>(this);
}
cs_ivar const *cs_ident::get_ivar() const {
if (!is_ivar()) {
return nullptr;
}
return static_cast<cs_ivar const *>(this);
}
bool cs_ident::is_fvar() const {
return get_type() == cs_ident_type::Fvar;
}
cs_fvar *cs_ident::get_fvar() {
if (!is_fvar()) {
return nullptr;
}
return static_cast<cs_fvar *>(this);
}
cs_fvar const *cs_ident::get_fvar() const {
if (!is_fvar()) {
return nullptr;
}
return static_cast<cs_fvar const *>(this);
}
bool cs_ident::is_svar() const {
return get_type() == cs_ident_type::Svar;
}
cs_svar *cs_ident::get_svar() {
if (!is_svar()) {
return nullptr;
}
return static_cast<cs_svar *>(this);
}
cs_svar const *cs_ident::get_svar() const {
if (!is_svar()) {
return nullptr;
}
return static_cast<cs_svar const *>(this);
}
cs_int cs_ivar::get_val_min() const {
return p_minval;
}
cs_int cs_ivar::get_val_max() const {
return p_maxval;
}
cs_int cs_ivar::get_value() const {
return p_storage;
}
void cs_ivar::set_value(cs_int val) {
p_storage = val;
}
cs_string cs_ivar::to_printable() const {
cs_int i = p_storage;
auto app = ostd::appender<cs_string>();
try {
if (!(get_flags() & CS_IDF_HEX) || (i < 0)) {
format(app, IvarFormat, get_name(), i);
} else if (p_maxval == 0xFFFFFF) {
format(
app, IvarHexColorFormat, get_name(),
i, (i >> 16) & 0xFF, (i >> 8) & 0xFF, i & 0xFF
);
} else {
format(app, IvarHexFormat, get_name(), i);
}
} catch (ostd::format_error const &e) {
throw cs_internal_error{e.what()};
}
return std::move(app.get());
}
cs_float cs_fvar::get_val_min() const {
return p_minval;
}
cs_float cs_fvar::get_val_max() const {
return p_maxval;
}
cs_float cs_fvar::get_value() const {
return p_storage;
}
void cs_fvar::set_value(cs_float val) {
p_storage = val;
}
cs_string cs_fvar::to_printable() const {
cs_float f = p_storage;
auto app = ostd::appender<cs_string>();
try {
format(
app, (f == cs_int(f)) ? FvarRoundFormat : FvarFormat, get_name(), f
);
} catch (ostd::format_error const &e) {
throw cs_internal_error{e.what()};
}
return std::move(app.get());
}
ostd::string_range cs_svar::get_value() const {
return ostd::iter(p_storage);
}
void cs_svar::set_value(cs_string val) {
p_storage = std::move(val);
}
cs_string cs_svar::to_printable() const {
ostd::string_range s = p_storage;
auto app = ostd::appender<cs_string>();
try {
if (ostd::find(s, '"').empty()) {
format(app, SvarFormat, get_name(), s);
} else {
format(app, SvarQuotedFormat, get_name(), s);
}
} catch (ostd::format_error const &e) {
throw cs_internal_error{e.what()};
}
return std::move(app.get());
}
ostd::string_range cs_command::get_args() const {
return p_cargs;
}
int cs_command::get_num_args() const {
return p_numargs;
}
void cs_init_lib_base(cs_state &cs);
cs_state::cs_state(cs_alloc_cb func, void *data):
p_state(nullptr), p_callhook()
{
if (!func) {
func = cs_default_alloc;
}
/* allocator is not set up yet, use func directly */
p_state = static_cast<cs_shared_state *>(
func(data, nullptr, 0, sizeof(cs_shared_state))
);
new (p_state) cs_shared_state();
p_owner = true;
/* set up allocator, from now we can call into alloc() */
p_state->allocf = func;
p_state->aptr = data;
for (int i = 0; i < MaxArguments; ++i) {
char buf[32];
snprintf(buf, sizeof(buf), "arg%d", i + 1);
new_ident(static_cast<char const *>(buf), CS_IDF_ARG);
}
cs_ident *id = new_ident("//dummy");
if (id->get_index() != DummyIdx) {
throw cs_internal_error{"invalid dummy index"};
}
id = new_ivar("numargs", MaxArguments, 0, 0);
if (id->get_index() != NumargsIdx) {
throw cs_internal_error{"invalid numargs index"};
}
id = new_ivar("dbgalias", 0, 1000, 4);
if (id->get_index() != DbgaliasIdx) {
throw cs_internal_error{"invalid dbgalias index"};
}
new_command("do", "e", [](auto &cs, auto args, auto &res) {
cs.run(args[0].get_code(), res);
})->p_type = CsIdDo;
new_command("doargs", "e", [](auto &cs, auto args, auto &res) {
cs_do_args(cs, [&cs, &res, &args]() {
cs.run(args[0].get_code(), res);
});
})->p_type = CsIdDoArgs;
new_command("if", "tee", [](auto &cs, auto args, auto &res) {
cs.run((args[0].get_bool() ? args[1] : args[2]).get_code(), res);
})->p_type = CsIdIf;
new_command("result", "T", [](auto &, auto args, auto &res) {
res = std::move(args[0]);
})->p_type = CsIdResult;
new_command("!", "t", [](auto &, auto args, auto &res) {
res.set_int(!args[0].get_bool());
})->p_type = CsIdNot;
new_command("&&", "E1V", [](auto &cs, auto args, auto &res) {
if (args.empty()) {
res.set_int(1);
} else {
for (size_t i = 0; i < args.size(); ++i) {
cs_bcode *code = args[i].get_code();
if (code) {
cs.run(code, res);
} else {
res = std::move(args[i]);
}
if (!res.get_bool()) {
break;
}
}
}
})->p_type = CsIdAnd;
new_command("||", "E1V", [](auto &cs, auto args, auto &res) {
if (args.empty()) {
res.set_int(0);
} else {
for (size_t i = 0; i < args.size(); ++i) {
cs_bcode *code = args[i].get_code();
if (code) {
cs.run(code, res);
} else {
res = std::move(args[i]);
}
if (res.get_bool()) {
break;
}
}
}
})->p_type = CsIdOr;
new_command("local", nullptr, nullptr)->p_type = CsIdLocal;
new_command("break", "", [](auto &cs, auto, auto &) {
if (cs.is_in_loop()) {
throw CsBreakException();
} else {
throw cs_error(cs, "no loop to break");
}
})->p_type = CsIdBreak;
new_command("continue", "", [](auto &cs, auto, auto &) {
if (cs.is_in_loop()) {
throw CsContinueException();
} else {
throw cs_error(cs, "no loop to continue");
}
})->p_type = CsIdContinue;
cs_init_lib_base(*this);
}
OSTD_EXPORT cs_state::~cs_state() {
destroy();
}
OSTD_EXPORT void cs_state::destroy() {
if (!p_state || !p_owner) {
return;
}
for (auto &p: p_state->idents) {
cs_ident *i = p.second;
cs_alias *a = i->get_alias();
if (a) {
a->get_value().force_null();
cs_alias_internal::clean_code(a);
}
p_state->destroy(i);
}
p_state->destroy(p_state);
}
cs_state::cs_state(cs_shared_state *s):
p_state(s), p_owner(false)
{}
OSTD_EXPORT cs_state cs_state::new_thread() {
return cs_state{p_state};
}
OSTD_EXPORT cs_hook_cb cs_state::set_call_hook(cs_hook_cb func) {
auto hk = std::move(p_callhook);
p_callhook = std::move(func);
return hk;
}
OSTD_EXPORT cs_hook_cb const &cs_state::get_call_hook() const {
return p_callhook;
}
OSTD_EXPORT cs_hook_cb &cs_state::get_call_hook() {
return p_callhook;
}
void *cs_state::alloc(void *ptr, size_t os, size_t ns) {
return p_state->alloc(ptr, os, ns);
}
OSTD_EXPORT void cs_state::clear_override(cs_ident &id) {
if (!(id.get_flags() & CS_IDF_OVERRIDDEN)) {
return;
}
switch (id.get_type()) {
case cs_ident_type::Alias: {
cs_alias &a = static_cast<cs_alias &>(id);
cs_alias_internal::clean_code(&a);
a.get_value().set_str("");
break;
}
case cs_ident_type::Ivar: {
cs_ivar &iv = static_cast<cs_ivar &>(id);
iv.set_value(iv.p_overrideval);
iv.changed(*this);
break;
}
case cs_ident_type::Fvar: {
cs_fvar &fv = static_cast<cs_fvar &>(id);
fv.set_value(fv.p_overrideval);
fv.changed(*this);
break;
}
case cs_ident_type::Svar: {
cs_svar &sv = static_cast<cs_svar &>(id);
sv.set_value(sv.p_overrideval);
sv.changed(*this);
break;
}
default:
break;
}
id.p_flags &= ~CS_IDF_OVERRIDDEN;
}
OSTD_EXPORT void cs_state::clear_overrides() {
for (auto &p: p_state->idents) {
clear_override(*(p.second));
}
}
OSTD_EXPORT cs_ident *cs_state::add_ident(cs_ident *id) {
if (!id) {
return nullptr;
}
p_state->idents[id->get_name()] = id;
id->p_index = p_state->identmap.size();
p_state->identmap.push_back(id);
return p_state->identmap.back();
}
OSTD_EXPORT cs_ident *cs_state::new_ident(ostd::string_range name, int flags) {
cs_ident *id = get_ident(name);
if (!id) {
if (cs_check_num(name)) {
throw cs_error(
*this, "number %s is not a valid identifier name", name
);
}
id = add_ident(p_state->create<cs_alias>(name, flags));
}
return id;
}
OSTD_EXPORT cs_ident *cs_state::force_ident(cs_value &v) {
switch (v.get_type()) {
case cs_value_type::Ident:
return v.get_ident();
case cs_value_type::Macro:
case cs_value_type::Cstring:
case cs_value_type::String: {
cs_ident *id = new_ident(v.get_strr());
v.set_ident(id);
return id;
}
default:
break;
}
v.set_ident(p_state->identmap[DummyIdx]);
return p_state->identmap[DummyIdx];
}
OSTD_EXPORT cs_ident *cs_state::get_ident(ostd::string_range name) {
auto id = p_state->idents.find(name);
if (id != p_state->idents.end()) {
return id->second;
}
return nullptr;
}
OSTD_EXPORT cs_alias *cs_state::get_alias(ostd::string_range name) {
auto id = get_ident(name);
if (!id || !id->is_alias()) {
return nullptr;
}
return static_cast<cs_alias *>(id);
}
OSTD_EXPORT bool cs_state::have_ident(ostd::string_range name) {
return p_state->idents.find(name) != p_state->idents.end();
}
OSTD_EXPORT cs_ident_r cs_state::get_idents() {
return cs_ident_r(
p_state->identmap.data(),
p_state->identmap.data() + p_state->identmap.size()
);
}
OSTD_EXPORT cs_const_ident_r cs_state::get_idents() const {
auto ptr = const_cast<cs_ident const **>(p_state->identmap.data());
return cs_const_ident_r(ptr, ptr + p_state->identmap.size());
}
OSTD_EXPORT cs_ivar *cs_state::new_ivar(
ostd::string_range n, cs_int m, cs_int x, cs_int v, cs_var_cb f, int flags
) {
return add_ident(
p_state->create<cs_ivar>(n, m, x, v, std::move(f), flags)
)->get_ivar();
}
OSTD_EXPORT cs_fvar *cs_state::new_fvar(
ostd::string_range n, cs_float m, cs_float x, cs_float v, cs_var_cb f, int flags
) {
return add_ident(
p_state->create<cs_fvar>(n, m, x, v, std::move(f), flags)
)->get_fvar();
}
OSTD_EXPORT cs_svar *cs_state::new_svar(
ostd::string_range n, cs_string v, cs_var_cb f, int flags
) {
return add_ident(
p_state->create<cs_svar>(n, std::move(v), std::move(f), flags)
)->get_svar();
}
OSTD_EXPORT void cs_state::reset_var(ostd::string_range name) {
cs_ident *id = get_ident(name);
if (!id) {
throw cs_error(*this, "variable %s does not exist", name);
}
if (id->get_flags() & CS_IDF_READONLY) {
throw cs_error(*this, "variable %s is read only", name);
}
clear_override(*id);
}
OSTD_EXPORT void cs_state::touch_var(ostd::string_range name) {
cs_ident *id = get_ident(name);
if (id && id->is_var()) {
static_cast<cs_var *>(id)->changed(*this);
}
}
OSTD_EXPORT void cs_state::set_alias(ostd::string_range name, cs_value v) {
cs_ident *id = get_ident(name);
if (id) {
switch (id->get_type()) {
case cs_ident_type::Alias: {
cs_alias *a = static_cast<cs_alias *>(id);
if (a->get_index() < MaxArguments) {
cs_alias_internal::set_arg(a, *this, v);
} else {
cs_alias_internal::set_alias(a, *this, v);
}
return;
}
case cs_ident_type::Ivar:
set_var_int_checked(static_cast<cs_ivar *>(id), v.get_int());
break;
case cs_ident_type::Fvar:
set_var_float_checked(static_cast<cs_fvar *>(id), v.get_float());
break;
case cs_ident_type::Svar:
set_var_str_checked(static_cast<cs_svar *>(id), v.get_str());
break;
default:
throw cs_error(
*this, "cannot redefine builtin %s with an alias",
id->get_name()
);
}
} else if (cs_check_num(name)) {
throw cs_error(*this, "cannot alias number %s", name);
} else {
add_ident(p_state->create<cs_alias>(name, std::move(v), identflags));
}
}
OSTD_EXPORT void cs_state::print_var(cs_var *v) {
ostd::writeln(v->to_printable());
}
void cs_alias::get_cstr(cs_value &v) const {
switch (p_val.get_type()) {
case cs_value_type::Macro:
v.set_macro(p_val.get_strr());
break;
case cs_value_type::String:
case cs_value_type::Cstring:
v.set_cstr(p_val.get_strr());
break;
case cs_value_type::Int:
v.set_str(intstr(p_val.get_int()));
break;
case cs_value_type::Float:
v.set_str(floatstr(p_val.get_float()));
break;
default:
v.set_cstr("");
break;
}
}
void cs_alias::get_cval(cs_value &v) const {
switch (p_val.get_type()) {
case cs_value_type::Macro:
v.set_macro(p_val.get_strr());
break;
case cs_value_type::String:
case cs_value_type::Cstring:
v.set_cstr(p_val.get_strr());
break;
case cs_value_type::Int:
v.set_int(p_val.get_int());
break;
case cs_value_type::Float:
v.set_float(p_val.get_float());
break;
default:
v.set_null();
break;
}
}
cs_ident_type cs_ident::get_type() const {
if (p_type > CsIdAlias) {
return cs_ident_type::Special;
}
return cs_ident_type(p_type);
}
ostd::string_range cs_ident::get_name() const {
return p_name;
}
int cs_ident::get_flags() const {
return p_flags;
}
int cs_ident::get_index() const {
return p_index;
}
template<typename SF>
static inline void cs_override_var(cs_state &cs, cs_var *v, int &vflags, SF sf) {
if ((cs.identflags & CS_IDF_OVERRIDDEN) || (vflags & CS_IDF_OVERRIDE)) {
if (vflags & CS_IDF_PERSIST) {
throw cs_error(
cs, "cannot override persistent variable '%s'", v->get_name()
);
}
if (!(vflags & CS_IDF_OVERRIDDEN)) {
sf();
vflags |= CS_IDF_OVERRIDDEN;
}
} else {
if (vflags & CS_IDF_OVERRIDDEN) {
vflags &= ~CS_IDF_OVERRIDDEN;
}
}
}
OSTD_EXPORT void cs_state::set_var_int(
ostd::string_range name, cs_int v, bool dofunc, bool doclamp
) {
cs_ident *id = get_ident(name);
if (!id || id->is_ivar()) {
return;
}
cs_ivar *iv = static_cast<cs_ivar *>(id);
cs_override_var(
*this, iv, iv->p_flags,
[&iv]() { iv->p_overrideval = iv->get_value(); }
);
if (doclamp) {
iv->set_value(std::clamp(v, iv->get_val_min(), iv->get_val_max()));
} else {
iv->set_value(v);
}
if (dofunc) {
iv->changed(*this);
}
}
OSTD_EXPORT void cs_state::set_var_float(
ostd::string_range name, cs_float v, bool dofunc, bool doclamp
) {
cs_ident *id = get_ident(name);
if (!id || id->is_fvar()) {
return;
}
cs_fvar *fv = static_cast<cs_fvar *>(id);
cs_override_var(
*this, fv, fv->p_flags,
[&fv]() { fv->p_overrideval = fv->get_value(); }
);
if (doclamp) {
fv->set_value(std::clamp(v, fv->get_val_min(), fv->get_val_max()));
} else {
fv->set_value(v);
}
if (dofunc) {
fv->changed(*this);
}
}
OSTD_EXPORT void cs_state::set_var_str(
ostd::string_range name, ostd::string_range v, bool dofunc
) {
cs_ident *id = get_ident(name);
if (!id || id->is_svar()) {
return;
}
cs_svar *sv = static_cast<cs_svar *>(id);
cs_override_var(
*this, sv, sv->p_flags,
[&sv]() { sv->p_overrideval = sv->get_value(); }
);
sv->set_value(cs_string{v});
if (dofunc) {
sv->changed(*this);
}
}
OSTD_EXPORT std::optional<cs_int>
cs_state::get_var_int(ostd::string_range name) {
cs_ident *id = get_ident(name);
if (!id || id->is_ivar()) {
return std::nullopt;
}
return static_cast<cs_ivar *>(id)->get_value();
}
OSTD_EXPORT std::optional<cs_float>
cs_state::get_var_float(ostd::string_range name) {
cs_ident *id = get_ident(name);
if (!id || id->is_fvar()) {
return std::nullopt;
}
return static_cast<cs_fvar *>(id)->get_value();
}
OSTD_EXPORT std::optional<cs_string>
cs_state::get_var_str(ostd::string_range name) {
cs_ident *id = get_ident(name);
if (!id || id->is_svar()) {
return std::nullopt;
}
return cs_string(static_cast<cs_svar *>(id)->get_value());
}
OSTD_EXPORT std::optional<cs_int>
cs_state::get_var_min_int(ostd::string_range name) {
cs_ident *id = get_ident(name);
if (!id || id->is_ivar()) {
return std::nullopt;
}
return static_cast<cs_ivar *>(id)->get_val_min();
}
OSTD_EXPORT std::optional<cs_int>
cs_state::get_var_max_int(ostd::string_range name) {
cs_ident *id = get_ident(name);
if (!id || id->is_ivar()) {
return std::nullopt;
}
return static_cast<cs_ivar *>(id)->get_val_max();
}
OSTD_EXPORT std::optional<cs_float>
cs_state::get_var_min_float(ostd::string_range name) {
cs_ident *id = get_ident(name);
if (!id || id->is_fvar()) {
return std::nullopt;
}
return static_cast<cs_fvar *>(id)->get_val_min();
}
OSTD_EXPORT std::optional<cs_float>
cs_state::get_var_max_float(ostd::string_range name) {
cs_ident *id = get_ident(name);
if (!id || id->is_fvar()) {
return std::nullopt;
}
return static_cast<cs_fvar *>(id)->get_val_max();
}
OSTD_EXPORT std::optional<cs_string>
cs_state::get_alias_val(ostd::string_range name) {
cs_alias *a = get_alias(name);
if (!a) {
return std::nullopt;
}
if ((a->get_index() < MaxArguments) && !cs_is_arg_used(*this, a)) {
return std::nullopt;
}
return a->get_value().get_str();
}
cs_int cs_clamp_var(cs_state &cs, cs_ivar *iv, cs_int v) {
if (v < iv->get_val_min()) {
v = iv->get_val_min();
} else if (v > iv->get_val_max()) {
v = iv->get_val_max();
} else {
return v;
}
throw cs_error(
cs,
(iv->get_flags() & CS_IDF_HEX)
? (
(iv->get_val_min() <= 255)
? "valid range for '%s' is %d..0x%X"
: "valid range for '%s' is 0x%X..0x%X"
)
: "valid range for '%s' is %d..%d",
iv->get_name(), iv->get_val_min(), iv->get_val_max()
);
}
OSTD_EXPORT void cs_state::set_var_int_checked(cs_ivar *iv, cs_int v) {
if (iv->get_flags() & CS_IDF_READONLY) {
throw cs_error(
*this, "variable '%s' is read only", iv->get_name()
);
}
cs_override_var(
*this, iv, iv->p_flags,
[&iv]() { iv->p_overrideval = iv->get_value(); }
);
if ((v < iv->get_val_min()) || (v > iv->get_val_max())) {
v = cs_clamp_var(*this, iv, v);
}
iv->set_value(v);
iv->changed(*this);
}
OSTD_EXPORT void cs_state::set_var_int_checked(cs_ivar *iv, cs_value_r args) {
cs_int v = args[0].force_int();
if ((iv->get_flags() & CS_IDF_HEX) && (args.size() > 1)) {
v = (v << 16) | (args[1].force_int() << 8);
if (args.size() > 2) {
v |= args[2].force_int();
}
}
set_var_int_checked(iv, v);
}
cs_float cs_clamp_fvar(cs_state &cs, cs_fvar *fv, cs_float v) {
if (v < fv->get_val_min()) {
v = fv->get_val_min();
} else if (v > fv->get_val_max()) {
v = fv->get_val_max();
} else {
return v;
}
throw cs_error(
cs, "valid range for '%s' is %s..%s", floatstr(fv->get_val_min()),
floatstr(fv->get_val_max())
);
return v;
}
OSTD_EXPORT void cs_state::set_var_float_checked(cs_fvar *fv, cs_float v) {
if (fv->get_flags() & CS_IDF_READONLY) {
throw cs_error(
*this, "variable '%s' is read only", fv->get_name()
);
}
cs_override_var(
*this, fv, fv->p_flags,
[&fv]() { fv->p_overrideval = fv->get_value(); }
);
if ((v < fv->get_val_min()) || (v > fv->get_val_max())) {
v = cs_clamp_fvar(*this, fv, v);
}
fv->set_value(v);
fv->changed(*this);
}
OSTD_EXPORT void cs_state::set_var_str_checked(
cs_svar *sv, ostd::string_range v
) {
if (sv->get_flags() & CS_IDF_READONLY) {
throw cs_error(
*this, "variable '%s' is read only", sv->get_name()
);
}
cs_override_var(
*this, sv, sv->p_flags,
[&sv]() { sv->p_overrideval = sv->get_value(); }
);
sv->set_value(cs_string{v});
sv->changed(*this);
}
OSTD_EXPORT cs_command *cs_state::new_command(
ostd::string_range name, ostd::string_range args, cs_command_cb func
) {
int nargs = 0;
for (ostd::string_range fmt(args); !fmt.empty(); ++fmt) {
switch (*fmt) {
case 'i':
case 'b':
case 'f':
case 'F':
case 't':
case 'T':
case 'E':
case 'N':
case 'S':
case 's':
case 'e':
case 'r':
case '$':
if (nargs < MaxArguments) {
++nargs;
}
break;
case '1':
case '2':
case '3':
case '4':
if (nargs < (*fmt - '0')) {
return nullptr;
}
if ((fmt.size() != 2) || ((fmt[1] != 'C') && (fmt[1] != 'V'))) {
return nullptr;
}
if (nargs < MaxArguments) {
fmt = ostd::string_range{&fmt[-int(*fmt) + '0' - 1], &fmt[fmt.size()]};
}
break;
case 'C':
case 'V':
if (fmt.size() != 1) {
return nullptr;
}
break;
default:
return nullptr;
}
}
return static_cast<cs_command *>(
add_ident(p_state->create<cs_command>(name, args, nargs, std::move(func)))
);
}
static inline void cs_do_loop(
cs_state &cs, cs_ident &id, cs_int offset, cs_int n, cs_int step,
cs_bcode *cond, cs_bcode *body
) {
cs_stacked_value idv{&id};
if (n <= 0 || !idv.has_alias()) {
return;
}
for (cs_int i = 0; i < n; ++i) {
idv.set_int(offset + i * step);
idv.push();
if (cond && !cs.run_bool(cond)) {
break;
}
switch (cs.run_loop(body)) {
case CsLoopState::Break:
goto end;
default: /* continue and normal */
break;
}
}
end:
return;
}
static inline void cs_loop_conc(
cs_state &cs, cs_value &res, cs_ident &id, cs_int offset, cs_int n,
cs_int step, cs_bcode *body, bool space
) {
cs_stacked_value idv{&id};
if (n <= 0 || !idv.has_alias()) {
return;
}
cs_string s;
for (cs_int i = 0; i < n; ++i) {
idv.set_int(offset + i * step);
idv.push();
cs_value v;
switch (cs.run_loop(body, v)) {
case CsLoopState::Break:
goto end;
case CsLoopState::Continue:
continue;
default:
break;
}
if (space && i) {
s += ' ';
}
s += v.get_str();
}
end:
res.set_str(std::move(s));
}
void cs_init_lib_base(cs_state &gcs) {
gcs.new_command("error", "s", [](auto &cs, auto args, auto &) {
throw cs_error(cs, args[0].get_strr());
});
gcs.new_command("pcall", "err", [](auto &cs, auto args, auto &ret) {
cs_alias *cret = args[1].get_ident()->get_alias(),
*css = args[2].get_ident()->get_alias();
if (!cret || !css) {
ret.set_int(0);
return;
}
cs_value result, tback;
bool rc = true;
try {
cs.run(args[0].get_code(), result);
} catch (cs_error const &e) {
result.set_str(cs_string{e.what()});
if (e.get_stack().get()) {
auto app = ostd::appender<cs_string>();
cscript::util::print_stack(app, e.get_stack());
tback.set_str(std::move(app.get()));
}
rc = false;
}
ret.set_int(rc);
cs_alias_internal::set_alias(cret, cs, result);
cs_alias_internal::set_alias(css, cs, tback);
});
gcs.new_command("?", "tTT", [](auto &, auto args, auto &res) {
if (args[0].get_bool()) {
res = std::move(args[1]);
} else {
res = std::move(args[2]);
}
});
gcs.new_command("cond", "ee2V", [](auto &cs, auto args, auto &res) {
for (size_t i = 0; i < args.size(); i += 2) {
if ((i + 1) < args.size()) {
if (cs.run_bool(args[i].get_code())) {
cs.run(args[i + 1].get_code(), res);
break;
}
} else {
cs.run(args[i].get_code(), res);
break;
}
}
});
gcs.new_command("case", "ite2V", [](auto &cs, auto args, auto &res) {
cs_int val = args[0].get_int();
for (size_t i = 1; (i + 1) < args.size(); i += 2) {
if (
(args[i].get_type() == cs_value_type::Null) ||
(args[i].get_int() == val)
) {
cs.run(args[i + 1].get_code(), res);
return;
}
}
});
gcs.new_command("casef", "fte2V", [](auto &cs, auto args, auto &res) {
cs_float val = args[0].get_float();
for (size_t i = 1; (i + 1) < args.size(); i += 2) {
if (
(args[i].get_type() == cs_value_type::Null) ||
(args[i].get_float() == val)
) {
cs.run(args[i + 1].get_code(), res);
return;
}
}
});
gcs.new_command("cases", "ste2V", [](auto &cs, auto args, auto &res) {
cs_string val = args[0].get_str();
for (size_t i = 1; (i + 1) < args.size(); i += 2) {
if (
(args[i].get_type() == cs_value_type::Null) ||
(args[i].get_str() == val)
) {
cs.run(args[i + 1].get_code(), res);
return;
}
}
});
gcs.new_command("pushif", "rTe", [](auto &cs, auto args, auto &res) {
cs_stacked_value idv{args[0].get_ident()};
if (!idv.has_alias() || (idv.get_alias()->get_index() < MaxArguments)) {
return;
}
if (args[1].get_bool()) {
idv = std::move(args[1]);
idv.push();
cs.run(args[2].get_code(), res);
}
});
gcs.new_command("loop", "rie", [](auto &cs, auto args, auto &) {
cs_do_loop(
cs, *args[0].get_ident(), 0, args[1].get_int(), 1, nullptr,
args[2].get_code()
);
});
gcs.new_command("loop+", "riie", [](auto &cs, auto args, auto &) {
cs_do_loop(
cs, *args[0].get_ident(), args[1].get_int(), args[2].get_int(), 1,
nullptr, args[3].get_code()
);
});
gcs.new_command("loop*", "riie", [](auto &cs, auto args, auto &) {
cs_do_loop(
cs, *args[0].get_ident(), 0, args[1].get_int(), args[2].get_int(),
nullptr, args[3].get_code()
);
});
gcs.new_command("loop+*", "riiie", [](auto &cs, auto args, auto &) {
cs_do_loop(
cs, *args[0].get_ident(), args[1].get_int(), args[3].get_int(),
args[2].get_int(), nullptr, args[4].get_code()
);
});
gcs.new_command("loopwhile", "riee", [](auto &cs, auto args, auto &) {
cs_do_loop(
cs, *args[0].get_ident(), 0, args[1].get_int(), 1,
args[2].get_code(), args[3].get_code()
);
});
gcs.new_command("loopwhile+", "riiee", [](auto &cs, auto args, auto &) {
cs_do_loop(
cs, *args[0].get_ident(), args[1].get_int(), args[2].get_int(), 1,
args[3].get_code(), args[4].get_code()
);
});
gcs.new_command("loopwhile*", "riiee", [](auto &cs, auto args, auto &) {
cs_do_loop(
cs, *args[0].get_ident(), 0, args[2].get_int(), args[1].get_int(),
args[3].get_code(), args[4].get_code()
);
});
gcs.new_command("loopwhile+*", "riiiee", [](auto &cs, auto args, auto &) {
cs_do_loop(
cs, *args[0].get_ident(), args[1].get_int(), args[3].get_int(),
args[2].get_int(), args[4].get_code(), args[5].get_code()
);
});
gcs.new_command("while", "ee", [](auto &cs, auto args, auto &) {
cs_bcode *cond = args[0].get_code(), *body = args[1].get_code();
while (cs.run_bool(cond)) {
switch (cs.run_loop(body)) {
case CsLoopState::Break:
goto end;
default: /* continue and normal */
break;
}
}
end:
return;
});
gcs.new_command("loopconcat", "rie", [](auto &cs, auto args, auto &res) {
cs_loop_conc(
cs, res, *args[0].get_ident(), 0, args[1].get_int(), 1,
args[2].get_code(), true
);
});
gcs.new_command("loopconcat+", "riie", [](auto &cs, auto args, auto &res) {
cs_loop_conc(
cs, res, *args[0].get_ident(), args[1].get_int(),
args[2].get_int(), 1, args[3].get_code(), true
);
});
gcs.new_command("loopconcat*", "riie", [](auto &cs, auto args, auto &res) {
cs_loop_conc(
cs, res, *args[0].get_ident(), 0, args[2].get_int(),
args[1].get_int(), args[3].get_code(), true
);
});
gcs.new_command("loopconcat+*", "riiie", [](auto &cs, auto args, auto &res) {
cs_loop_conc(
cs, res, *args[0].get_ident(), args[1].get_int(),
args[3].get_int(), args[2].get_int(), args[4].get_code(), true
);
});
gcs.new_command("loopconcatword", "rie", [](auto &cs, auto args, auto &res) {
cs_loop_conc(
cs, res, *args[0].get_ident(), 0, args[1].get_int(), 1,
args[2].get_code(), false
);
});
gcs.new_command("loopconcatword+", "riie", [](
auto &cs, auto args, auto &res
) {
cs_loop_conc(
cs, res, *args[0].get_ident(), args[1].get_int(),
args[2].get_int(), 1, args[3].get_code(), false
);
});
gcs.new_command("loopconcatword*", "riie", [](
auto &cs, auto args, auto &res
) {
cs_loop_conc(
cs, res, *args[0].get_ident(), 0, args[2].get_int(),
args[1].get_int(), args[3].get_code(), false
);
});
gcs.new_command("loopconcatword+*", "riiie", [](
auto &cs, auto args, auto &res
) {
cs_loop_conc(
cs, res, *args[0].get_ident(), args[1].get_int(), args[3].get_int(),
args[2].get_int(), args[4].get_code(), false
);
});
gcs.new_command("push", "rTe", [](auto &cs, auto args, auto &res) {
cs_stacked_value idv{args[0].get_ident()};
if (!idv.has_alias() || (idv.get_alias()->get_index() < MaxArguments)) {
return;
}
idv = std::move(args[1]);
idv.push();
cs.run(args[2].get_code(), res);
});
gcs.new_command("resetvar", "s", [](auto &cs, auto args, auto &) {
cs.reset_var(args[0].get_strr());
});
gcs.new_command("alias", "sT", [](auto &cs, auto args, auto &) {
cs.set_alias(args[0].get_strr(), std::move(args[1]));
});
gcs.new_command("getvarmin", "s", [](auto &cs, auto args, auto &res) {
res.set_int(cs.get_var_min_int(args[0].get_strr()).value_or(0));
});
gcs.new_command("getvarmax", "s", [](auto &cs, auto args, auto &res) {
res.set_int(cs.get_var_max_int(args[0].get_strr()).value_or(0));
});
gcs.new_command("getfvarmin", "s", [](auto &cs, auto args, auto &res) {
res.set_float(cs.get_var_min_float(args[0].get_strr()).value_or(0.0f));
});
gcs.new_command("getfvarmax", "s", [](auto &cs, auto args, auto &res) {
res.set_float(cs.get_var_max_float(args[0].get_strr()).value_or(0.0f));
});
gcs.new_command("identexists", "s", [](auto &cs, auto args, auto &res) {
res.set_int(cs.have_ident(args[0].get_strr()));
});
gcs.new_command("getalias", "s", [](auto &cs, auto args, auto &res) {
res.set_str(
std::move(cs.get_alias_val(args[0].get_strr()).value_or(""))
);
});
}
void cs_init_lib_math(cs_state &cs);
void cs_init_lib_string(cs_state &cs);
void cs_init_lib_list(cs_state &cs);
OSTD_EXPORT void cs_state::init_libs(int libs) {
if (libs & CsLibMath) {
cs_init_lib_math(*this);
}
if (libs & CsLibString) {
cs_init_lib_string(*this);
}
if (libs & CsLibList) {
cs_init_lib_list(*this);
}
}
} /* namespace cscript */
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