mirror of
https://github.com/janet-lang/janet
synced 2024-11-28 19:19:53 +00:00
commit
3ac6b2335a
@ -438,6 +438,15 @@ static JanetSlot janetc_array(JanetFopts opts, Janet x) {
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JOP_MAKE_ARRAY);
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}
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static JanetSlot janetc_tuple(JanetFopts opts, Janet x) {
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JanetCompiler *c = opts.compiler;
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const Janet *t = janet_unwrap_tuple(x);
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return janetc_maker(opts,
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janetc_toslots(c, t, janet_tuple_length(t)),
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JOP_MAKE_TUPLE);
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}
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static JanetSlot janetc_tablector(JanetFopts opts, Janet x, int op) {
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JanetCompiler *c = opts.compiler;
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return janetc_maker(opts,
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@ -547,6 +556,8 @@ JanetSlot janetc_value(JanetFopts opts, Janet x) {
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/* Empty tuple is tuple literal */
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if (janet_tuple_length(tup) == 0) {
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ret = janetc_cslot(x);
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} else if (janet_tuple_flag(tup) & JANET_TUPLE_FLAG_BRACKETCTOR) { // [] tuples are not function call
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ret = janetc_tuple(opts, x);
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} else {
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JanetSlot head = janetc_value(subopts, tup[0]);
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subopts.flags = JANET_FUNCTION | JANET_CFUNCTION;
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@ -440,12 +440,12 @@
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(defmacro for
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"Do a c style for loop for side effects. Returns nil."
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[binding start end & body]
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(apply loop [tuple binding :range [tuple start end]] body))
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(apply loop (tuple binding :range (tuple start end)) body))
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(defmacro each
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"Loop over each value in ind. Returns nil."
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[binding ind & body]
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(apply loop [tuple binding :in ind] body))
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(apply loop (tuple binding :in ind) body))
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(defmacro coro
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"A wrapper for making fibers. Same as (fiber/new (fn [&] ...body))."
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@ -778,8 +778,8 @@
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[x & forms]
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(defn fop [last n]
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(def [h t] (if (= :tuple (type n))
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[tuple (get n 0) (array/slice n 1)]
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[tuple n @[]]))
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(tuple (get n 0) (array/slice n 1))
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(tuple n @[])))
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(def parts (array/concat @[h last] t))
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(tuple/slice parts 0))
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(reduce fop x forms))
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@ -791,8 +791,8 @@
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[x & forms]
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(defn fop [last n]
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(def [h t] (if (= :tuple (type n))
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[tuple (get n 0) (array/slice n 1)]
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[tuple n @[]]))
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(tuple (get n 0) (array/slice n 1))
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(tuple n @[])))
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(def parts (array/concat @[h] t @[last]))
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(tuple/slice parts 0))
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(reduce fop x forms))
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@ -806,8 +806,8 @@
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[x & forms]
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(defn fop [last n]
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(def [h t] (if (= :tuple (type n))
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[tuple (get n 0) (array/slice n 1)]
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[tuple n @[]]))
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(tuple (get n 0) (array/slice n 1))
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(tuple n @[])))
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(def sym (gensym))
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(def parts (array/concat @[h sym] t))
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~(let [,sym ,last] (if ,sym ,(tuple/slice parts 0))))
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@ -822,8 +822,8 @@
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[x & forms]
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(defn fop [last n]
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(def [h t] (if (= :tuple (type n))
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[tuple (get n 0) (array/slice n 1)]
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[tuple n @[]]))
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(tuple (get n 0) (array/slice n 1))
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(tuple n @[])))
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(def sym (gensym))
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(def parts (array/concat @[h] t @[sym]))
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~(let [,sym ,last] (if ,sym ,(tuple/slice parts 0))))
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@ -402,11 +402,13 @@ static void marshal_one(MarshalState *st, Janet x, int flags) {
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goto done;
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case JANET_TUPLE:
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{
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int32_t i, count;
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int32_t i, count,flag;
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const Janet *tup = janet_unwrap_tuple(x);
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count = janet_tuple_length(tup);
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flag = janet_tuple_flag(tup);
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pushbyte(st, LB_TUPLE);
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pushint(st, count);
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pushint(st, flag);
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for (i = 0; i < count; i++)
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marshal_one(st, tup[i], flags + 1);
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/* Mark as seen AFTER marshaling */
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@ -1044,6 +1046,8 @@ static const uint8_t *unmarshal_one(
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} else if (lead == LB_TUPLE) {
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/* Tuple */
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Janet *tup = janet_tuple_begin(len);
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int32_t flag = readint(st, &data);
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janet_tuple_flag(tup)=flag;
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for (int32_t i = 0; i < len; i++) {
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data = unmarshal_one(st, data, tup + i, flags + 1);
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}
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@ -342,6 +342,15 @@ static Janet close_tuple(JanetParser *p, JanetParseState *state) {
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return janet_wrap_tuple(janet_tuple_end(ret));
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}
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static Janet close_ltuple(JanetParser *p, JanetParseState *state) {
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Janet *ret = janet_tuple_begin(state->argn);
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janet_tuple_flag(ret) |= JANET_TUPLE_FLAG_BRACKETCTOR;
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for (int32_t i = state->argn - 1; i >= 0; i--)
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ret[i] = p->args[--p->argcount];
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return janet_wrap_tuple(janet_tuple_end(ret));
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}
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static Janet close_array(JanetParser *p, JanetParseState *state) {
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JanetArray *array = janet_array(state->argn);
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for (int32_t i = state->argn - 1; i >= 0; i--)
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@ -486,7 +495,11 @@ static int root(JanetParser *p, JanetParseState *state, uint8_t c) {
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if (state->flags & PFLAG_ATSYM) {
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ds = close_array(p, state);
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} else {
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if (c == ']') {
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ds = close_ltuple(p, state);
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} else {
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ds = close_tuple(p, state);
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}
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}
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} else if (c == '}' && (state->flags & PFLAG_CURLYBRACKETS)) {
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if (state->argn & 1) {
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@ -31,11 +31,12 @@
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* which should be filled with Janets. The memory will not be collected until
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* janet_tuple_end is called. */
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Janet *janet_tuple_begin(int32_t length) {
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char *data = janet_gcalloc(JANET_MEMORY_TUPLE, 4 * sizeof(int32_t) + length * sizeof(Janet));
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Janet *tuple = (Janet *)(data + (4 * sizeof(int32_t)));
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char *data = janet_gcalloc(JANET_MEMORY_TUPLE, 5 * sizeof(int32_t) + length * sizeof(Janet));
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Janet *tuple = (Janet *)(data + (5 * sizeof(int32_t)));
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janet_tuple_length(tuple) = length;
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janet_tuple_sm_start(tuple) = -1;
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janet_tuple_sm_end(tuple) = -1;
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janet_tuple_flag(tuple) = 0;
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return tuple;
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}
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@ -334,7 +334,7 @@ int janet_indexed_view(Janet seq, const Janet **data, int32_t *len) {
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return 1;
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} else if (janet_checktype(seq, JANET_TUPLE)) {
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*data = janet_unwrap_tuple(seq);
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*len = janet_tuple_length(janet_unwrap_struct(seq));
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*len = janet_tuple_length(janet_unwrap_tuple(seq));
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return 1;
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}
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return 0;
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@ -980,11 +980,15 @@ JANET_API void janet_buffer_push_u32(JanetBuffer *buffer, uint32_t x);
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JANET_API void janet_buffer_push_u64(JanetBuffer *buffer, uint64_t x);
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/* Tuple */
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#define janet_tuple_raw(t) ((int32_t *)(t) - 4)
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#define JANET_TUPLE_FLAG_BRACKETCTOR 1
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#define janet_tuple_raw(t) ((int32_t *)(t) - 5)
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#define janet_tuple_length(t) (janet_tuple_raw(t)[0])
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#define janet_tuple_hash(t) ((janet_tuple_raw(t)[1]))
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#define janet_tuple_sm_start(t) ((janet_tuple_raw(t)[2]))
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#define janet_tuple_sm_end(t) ((janet_tuple_raw(t)[3]))
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#define janet_tuple_flag(t) ((janet_tuple_raw(t)[4]))
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JANET_API Janet *janet_tuple_begin(int32_t length);
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JANET_API const Janet *janet_tuple_end(Janet *tuple);
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JANET_API const Janet *janet_tuple_n(const Janet *values, int32_t n);
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