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libcubescript/src/cs_vm.hh

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#ifndef LIBCUBESCRIPT_CS_VM_HH
#define LIBCUBESCRIPT_CS_VM_HH
#include "cubescript/cubescript.hh"
#include <cstdlib>
#include <array>
#include <vector>
#include "cs_util.hh"
namespace cscript {
static constexpr int MaxArguments = 25;
static constexpr int MaxResults = 7;
static constexpr int DummyIdx = MaxArguments;
static constexpr int NumargsIdx = MaxArguments + 1;
static constexpr int DbgaliasIdx = MaxArguments + 2;
enum {
CsIdUnknown = -1, CsIdIvar, CsIdFvar, CsIdSvar, CsIdCommand, CsIdAlias,
CsIdLocal, CsIdDo, CsIdDoArgs, CsIdIf, CsIdBreak, CsIdContinue, CsIdResult,
CsIdNot, CsIdAnd, CsIdOr
};
struct cs_identLink {
cs_ident *id;
cs_identLink *next;
int usedargs;
cs_ident_stack *argstack;
};
enum {
CsValNull = 0, CsValInt, CsValFloat, CsValString,
CsValAny, CsValCode, CsValMacro, CsValIdent, CsValCstring,
CsValCany, CsValWord, CsValPop, CsValCond
};
static const int cs_valtypet[] = {
CsValNull, CsValInt, CsValFloat, CsValString,
CsValCstring, CsValCode, CsValMacro, CsValIdent
};
static inline int cs_vtype_to_int(cs_value_type v) {
return cs_valtypet[int(v)];
}
/* instruction: uint32 [length 24][retflag 2][opcode 6] */
enum {
CsCodeStart = 0,
CsCodeOffset,
CsCodeNull, CsCodeTrue, CsCodeFalse, CsCodeNot,
CsCodePop,
CsCodeEnter, CsCodeEnterResult,
CsCodeExit, CsCodeResultArg,
CsCodeVal, CsCodeValInt,
CsCodeDup,
CsCodeMacro,
CsCodeBool,
CsCodeBlock, CsCodeEmpty,
CsCodeCompile, CsCodeCond,
CsCodeForce,
CsCodeResult,
CsCodeIdent, CsCodeIdentU, CsCodeIdentArg,
CsCodeCom, CsCodeComC, CsCodeComV,
CsCodeConc, CsCodeConcW, CsCodeConcM,
CsCodeSvar, CsCodeSvarM, CsCodeSvar1,
CsCodeIvar, CsCodeIvar1, CsCodeIvar2, CsCodeIvar3,
CsCodeFvar, CsCodeFvar1,
CsCodeLookup, CsCodeLookupU, CsCodeLookupArg,
CsCodeLookupM, CsCodeLookupMu, CsCodeLookupMarg,
CsCodeAlias, CsCodeAliasU, CsCodeAliasArg,
CsCodeCall, CsCodeCallU, CsCodeCallArg,
CsCodePrint,
CsCodeLocal,
CsCodeDo, CsCodeDoArgs,
CsCodeJump, CsCodeJumpB, CsCodeJumpResult,
CsCodeBreak,
CsCodeOpMask = 0x3F,
CsCodeRet = 6,
CsCodeRetMask = 0xC0,
/* return type flags */
CsRetNull = CsValNull << CsCodeRet,
CsRetString = CsValString << CsCodeRet,
CsRetInt = CsValInt << CsCodeRet,
CsRetFloat = CsValFloat << CsCodeRet,
/* CsCodeJumpB, CsCodeJumpResult */
CsCodeFlagTrue = 1 << CsCodeRet,
CsCodeFlagFalse = 0 << CsCodeRet
};
struct cs_shared_state {
cs_map<ostd::string_range, cs_ident *> idents;
cs_vector<cs_ident *> identmap;
cs_alloc_cb allocf;
void *aptr;
void *alloc(void *ptr, size_t os, size_t ns) {
return allocf(aptr, ptr, os, ns);
}
template<typename T, typename ...A>
T *create(A &&...args) {
T *ret = static_cast<T *>(alloc(nullptr, 0, sizeof(T)));
new (ret) T(std::forward<A>(args)...);
return ret;
}
template<typename T>
T *create_array(size_t len) {
T *ret = static_cast<T *>(alloc(nullptr, 0, len * sizeof(T)));
for (size_t i = 0; i < len; ++i) {
new (&ret[i]) T();
}
return ret;
}
template<typename T>
void destroy(T *v) noexcept {
v->~T();
alloc(v, sizeof(T), 0);
}
template<typename T>
void destroy_array(T *v, size_t len) noexcept {
v->~T();
alloc(v, len * sizeof(T), 0);
}
};
struct CsBreakException {
};
struct CsContinueException {
};
template<typename T>
constexpr size_t CsTypeStorageSize =
(sizeof(T) - 1) / sizeof(uint32_t) + 1;
struct cs_gen_state {
cs_state &cs;
cs_gen_state *prevps;
bool parsing = true;
cs_vector<uint32_t> code;
ostd::string_range source;
size_t current_line;
ostd::string_range src_name;
cs_gen_state() = delete;
cs_gen_state(cs_state &csr):
cs(csr), prevps(csr.p_pstate), code(),
source(nullptr), current_line(1), src_name()
{
csr.p_pstate = this;
}
~cs_gen_state() {
done();
}
void done() {
if (!parsing) {
return;
}
cs.p_pstate = prevps;
parsing = false;
}
ostd::string_range get_str();
cs_string get_str_dup(bool unescape = true);
ostd::string_range get_word();
void gen_str(ostd::string_range word, bool macro = false) {
if (word.size() <= 3 && !macro) {
uint32_t op = CsCodeValInt | CsRetString;
for (size_t i = 0; i < word.size(); ++i) {
op |= uint32_t(
static_cast<unsigned char>(word[i])
) << ((i + 1) * 8);
}
code.push_back(op);
return;
}
code.push_back(
(macro ? CsCodeMacro : (CsCodeVal | CsRetString)) | (word.size() << 8)
);
auto it = reinterpret_cast<uint32_t const *>(word.data());
code.insert(
code.end(), it, it + (word.size() / sizeof(uint32_t))
);
size_t esz = word.size() % sizeof(uint32_t);
union {
char c[sizeof(uint32_t)];
uint32_t u;
} end;
end.u = 0;
memcpy(end.c, word.data() + word.size() - esz, esz);
code.push_back(end.u);
}
void gen_str() {
code.push_back(CsCodeValInt | CsRetString);
}
void gen_null() {
code.push_back(CsCodeValInt | CsRetNull);
}
void gen_int(cs_int i = 0) {
if (i >= -0x800000 && i <= 0x7FFFFF) {
code.push_back(CsCodeValInt | CsRetInt | (i << 8));
} else {
union {
cs_int i;
uint32_t u[CsTypeStorageSize<cs_int>];
} c;
c.i = i;
code.push_back(CsCodeVal | CsRetInt);
code.insert(code.end(), c.u, c.u + CsTypeStorageSize<cs_int>);
}
}
void gen_int(ostd::string_range word);
void gen_float(cs_float f = 0.0f) {
if (cs_int(f) == f && f >= -0x800000 && f <= 0x7FFFFF) {
code.push_back(CsCodeValInt | CsRetFloat | (cs_int(f) << 8));
} else {
union {
cs_float f;
uint32_t u[CsTypeStorageSize<cs_float>];
} c;
c.f = f;
code.push_back(CsCodeVal | CsRetFloat);
code.insert(code.end(), c.u, c.u + CsTypeStorageSize<cs_float>);
}
}
void gen_float(ostd::string_range word);
void gen_ident(cs_ident *id) {
code.push_back(
((id->get_index() < MaxArguments)
? CsCodeIdentArg
: CsCodeIdent
) | (id->get_index() << 8)
);
}
void gen_ident() {
gen_ident(cs.p_state->identmap[DummyIdx]);
}
void gen_ident(ostd::string_range word) {
gen_ident(cs.new_ident(word));
}
void gen_value(
int wordtype, ostd::string_range word = ostd::string_range(),
int line = 0
);
void gen_main(ostd::string_range s, int ret_type = CsValAny);
void next_char() {
if (source.empty()) {
return;
}
if (*source == '\n') {
++current_line;
}
source.pop_front();
}
char current(size_t ahead = 0) {
if (source.size() <= ahead) {
return '\0';
}
return source[ahead];
}
ostd::string_range read_macro_name();
char skip_until(ostd::string_range chars);
char skip_until(char cf);
void skip_comments();
};
cs_string intstr(cs_int v);
cs_string floatstr(cs_float v);
bool cs_check_num(ostd::string_range s);
static inline void bcode_incr(uint32_t *bc) {
*bc += 0x100;
}
static inline void bcode_decr(uint32_t *bc) {
*bc -= 0x100;
if (std::int32_t(*bc) < 0x100) {
delete[] bc;
}
}
static inline bool cs_is_arg_used(cs_state &cs, cs_ident *id) {
if (!cs.p_callstack) {
return true;
}
return cs.p_callstack->usedargs & (1 << id->get_index());
}
struct cs_alias_internal {
static void push_arg(
cs_alias *a, cs_value &v, cs_ident_stack &st, bool um = true
) {
if (a->p_astack == &st) {
/* prevent cycles and unnecessary code elsewhere */
a->p_val = std::move(v);
clean_code(a);
return;
}
st.val_s = std::move(a->p_val);
st.next = a->p_astack;
a->p_astack = &st;
a->p_val = std::move(v);
clean_code(a);
if (um) {
a->p_flags &= ~CS_IDF_UNKNOWN;
}
}
static void pop_arg(cs_alias *a) {
if (!a->p_astack) {
return;
}
cs_ident_stack *st = a->p_astack;
a->p_val = std::move(a->p_astack->val_s);
clean_code(a);
a->p_astack = st->next;
}
static void undo_arg(cs_alias *a, cs_ident_stack &st) {
cs_ident_stack *prev = a->p_astack;
st.val_s = std::move(a->p_val);
st.next = prev;
a->p_astack = prev->next;
a->p_val = std::move(prev->val_s);
clean_code(a);
}
static void redo_arg(cs_alias *a, cs_ident_stack &st) {
cs_ident_stack *prev = st.next;
prev->val_s = std::move(a->p_val);
a->p_astack = prev;
a->p_val = std::move(st.val_s);
clean_code(a);
}
static void set_arg(cs_alias *a, cs_state &cs, cs_value &v) {
if (cs_is_arg_used(cs, a)) {
a->p_val = std::move(v);
clean_code(a);
} else {
push_arg(a, v, cs.p_callstack->argstack[a->get_index()], false);
cs.p_callstack->usedargs |= 1 << a->get_index();
}
}
static void set_alias(cs_alias *a, cs_state &cs, cs_value &v) {
a->p_val = std::move(v);
clean_code(a);
a->p_flags = (a->p_flags & cs.identflags) | cs.identflags;
}
static void clean_code(cs_alias *a) {
uint32_t *bcode = reinterpret_cast<uint32_t *>(a->p_acode);
if (bcode) {
bcode_decr(bcode);
a->p_acode = nullptr;
}
}
static cs_bcode *compile_code(cs_alias *a, cs_state &cs) {
if (!a->p_acode) {
cs_gen_state gs(cs);
gs.code.reserve(64);
gs.gen_main(a->get_value().get_str());
/* i wish i could steal the memory somehow */
uint32_t *code = new uint32_t[gs.code.size()];
memcpy(code, gs.code.data(), gs.code.size() * sizeof(uint32_t));
bcode_incr(code);
a->p_acode = reinterpret_cast<cs_bcode *>(code);
}
return a->p_acode;
}
};
template<typename F>
static void cs_do_args(cs_state &cs, F body) {
if (!cs.p_callstack) {
body();
return;
}
cs_ident_stack argstack[MaxArguments];
int argmask1 = cs.p_callstack->usedargs;
for (int i = 0; argmask1; argmask1 >>= 1, ++i) {
if (argmask1 & 1) {
cs_alias_internal::undo_arg(
static_cast<cs_alias *>(cs.p_state->identmap[i]), argstack[i]
);
}
}
cs_identLink *prevstack = cs.p_callstack->next;
cs_identLink aliaslink = {
cs.p_callstack->id, cs.p_callstack,
prevstack ? prevstack->usedargs : ((1 << MaxArguments) - 1),
prevstack ? prevstack->argstack : nullptr
};
cs.p_callstack = &aliaslink;
cs_do_and_cleanup(std::move(body), [&]() {
if (prevstack) {
prevstack->usedargs = aliaslink.usedargs;
}
cs.p_callstack = aliaslink.next;
int argmask2 = cs.p_callstack->usedargs;
for (int i = 0; argmask2; argmask2 >>= 1, ++i) {
if (argmask2 & 1) {
cs_alias_internal::redo_arg(
static_cast<cs_alias *>(cs.p_state->identmap[i]), argstack[i]
);
}
}
});
}
cs_bcode *cs_copy_code(cs_bcode *c);
} /* namespace cscript */
#endif /* LIBCUBESCRIPT_CS_VM_HH */
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