/* * Copyright (c) 2019 Calvin Rose * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. */ #include #ifndef JANET_AMALG #include #include "util.h" #include "state.h" #include "gc.h" #endif /* Base 64 lookup table for digits */ const char janet_base64[65] = "0123456789" "ABCDEFGHIJKLMNOPQRSTUVWXYZ" "abcdefghijklmnopqrstuvwxyz" "_="; /* The JANET value types in order. These types can be used as * mnemonics instead of a bit pattern for type checking */ const char *const janet_type_names[16] = { "number", "nil", "boolean", "boolean", "fiber", "string", "symbol", "keyword", "array", "tuple", "table", "struct", "buffer", "function", "cfunction", "abstract" }; const char *const janet_signal_names[14] = { "ok", "error", "debug", "yield", "user0", "user1", "user2", "user3", "user4", "user5", "user6", "user7", "user8", "user9" }; const char *const janet_status_names[16] = { "dead", "error", "debug", "pending", "user0", "user1", "user2", "user3", "user4", "user5", "user6", "user7", "user8", "user9", "new", "alive" }; /* Calculate hash for string */ int32_t janet_string_calchash(const uint8_t *str, int32_t len) { const uint8_t *end = str + len; uint32_t hash = 5381; while (str < end) hash = (hash << 5) + hash + *str++; return (int32_t) hash; } /* Computes hash of an array of values */ int32_t janet_array_calchash(const Janet *array, int32_t len) { const Janet *end = array + len; uint32_t hash = 5381; while (array < end) hash = (hash << 5) + hash + janet_hash(*array++); return (int32_t) hash; } /* Computes hash of an array of values */ int32_t janet_kv_calchash(const JanetKV *kvs, int32_t len) { const JanetKV *end = kvs + len; uint32_t hash = 5381; while (kvs < end) { hash = (hash << 5) + hash + janet_hash(kvs->key); hash = (hash << 5) + hash + janet_hash(kvs->value); kvs++; } return (int32_t) hash; } /* Calculate next power of 2. May overflow. If n is 0, * will return 0. */ int32_t janet_tablen(int32_t n) { n |= n >> 1; n |= n >> 2; n |= n >> 4; n |= n >> 8; n |= n >> 16; return n + 1; } /* Helper to find a value in a Janet struct or table. Returns the bucket * containing the key, or the first empty bucket if there is no such key. */ const JanetKV *janet_dict_find(const JanetKV *buckets, int32_t cap, Janet key) { int32_t index = janet_maphash(cap, janet_hash(key)); int32_t i; const JanetKV *first_bucket = NULL; /* Higher half */ for (i = index; i < cap; i++) { const JanetKV *kv = buckets + i; if (janet_checktype(kv->key, JANET_NIL)) { if (janet_checktype(kv->value, JANET_NIL)) { return kv; } else if (NULL == first_bucket) { first_bucket = kv; } } else if (janet_equals(kv->key, key)) { return buckets + i; } } /* Lower half */ for (i = 0; i < index; i++) { const JanetKV *kv = buckets + i; if (janet_checktype(kv->key, JANET_NIL)) { if (janet_checktype(kv->value, JANET_NIL)) { return kv; } else if (NULL == first_bucket) { first_bucket = kv; } } else if (janet_equals(kv->key, key)) { return buckets + i; } } return first_bucket; } /* Get a value from a janet struct or table. */ Janet janet_dictionary_get(const JanetKV *data, int32_t cap, Janet key) { const JanetKV *kv = janet_dict_find(data, cap, key); if (kv && !janet_checktype(kv->key, JANET_NIL)) { return kv->value; } return janet_wrap_nil(); } /* Iterate through a struct or dictionary generically */ const JanetKV *janet_dictionary_next(const JanetKV *kvs, int32_t cap, const JanetKV *kv) { const JanetKV *end = kvs + cap; kv = (kv == NULL) ? kvs : kv + 1; while (kv < end) { if (!janet_checktype(kv->key, JANET_NIL)) return kv; kv++; } return NULL; } /* Compare a janet string with a cstring. More efficient than loading * c string as a janet string. */ int janet_cstrcmp(const uint8_t *str, const char *other) { int32_t len = janet_string_length(str); int32_t index; for (index = 0; index < len; index++) { uint8_t c = str[index]; uint8_t k = ((const uint8_t *)other)[index]; if (c < k) return -1; if (c > k) return 1; if (k == '\0') break; } return (other[index] == '\0') ? 0 : -1; } /* Do a binary search on a static array of structs. Each struct must * have a string as its first element, and the struct must be sorted * lexicographically by that element. */ const void *janet_strbinsearch( const void *tab, size_t tabcount, size_t itemsize, const uint8_t *key) { size_t low = 0; size_t hi = tabcount; const char *t = (const char *)tab; while (low < hi) { size_t mid = low + ((hi - low) / 2); const char **item = (const char **)(t + mid * itemsize); const char *name = *item; int comp = janet_cstrcmp(key, name); if (comp < 0) { hi = mid; } else if (comp > 0) { low = mid + 1; } else { return (const void *)item; } } return NULL; } /* Register a value in the global registry */ void janet_register(const char *name, JanetCFunction cfun) { Janet key = janet_wrap_cfunction(cfun); Janet value = janet_csymbolv(name); janet_table_put(janet_vm_registry, key, value); } /* Add a def to an environment */ void janet_def(JanetTable *env, const char *name, Janet val, const char *doc) { JanetTable *subt = janet_table(2); janet_table_put(subt, janet_ckeywordv("value"), val); if (doc) janet_table_put(subt, janet_ckeywordv("doc"), janet_cstringv(doc)); janet_table_put(env, janet_csymbolv(name), janet_wrap_table(subt)); } /* Add a var to the environment */ void janet_var(JanetTable *env, const char *name, Janet val, const char *doc) { JanetArray *array = janet_array(1); JanetTable *subt = janet_table(2); janet_array_push(array, val); janet_table_put(subt, janet_ckeywordv("ref"), janet_wrap_array(array)); if (doc) janet_table_put(subt, janet_ckeywordv("doc"), janet_cstringv(doc)); janet_table_put(env, janet_csymbolv(name), janet_wrap_table(subt)); } /* Load many cfunctions at once */ void janet_cfuns(JanetTable *env, const char *regprefix, const JanetReg *cfuns) { while (cfuns->name) { Janet name = janet_csymbolv(cfuns->name); Janet longname = name; if (regprefix) { int32_t reglen = 0; int32_t nmlen = 0; while (regprefix[reglen]) reglen++; while (cfuns->name[nmlen]) nmlen++; uint8_t *longname_buffer = janet_string_begin(reglen + 1 + nmlen); memcpy(longname_buffer, regprefix, reglen); longname_buffer[reglen] = '/'; memcpy(longname_buffer + reglen + 1, cfuns->name, nmlen); longname = janet_wrap_symbol(janet_string_end(longname_buffer)); } Janet fun = janet_wrap_cfunction(cfuns->cfun); janet_def(env, cfuns->name, fun, cfuns->documentation); janet_table_put(janet_vm_registry, fun, longname); cfuns++; } } /* Abstract type introspection */ static const JanetAbstractType type_info = {"core/type_info", NULL, NULL, NULL, NULL}; static uint32_t janet_abstract_type_gentag(const char * name,uint32_t salt) { /* something smarter should propably done here ? */ int32_t len = strlen(name); const char *end = name + len; uint32_t hash = 5381+salt; while (name < end) hash = (hash << 5) + hash + *name++; return (int32_t) hash; } void janet_register_abstract_type(const JanetAbstractTypeInfo * info) { JanetAbstractTypeInfo * abstract =(JanetAbstractTypeInfo *)janet_abstract(&type_info,sizeof(JanetAbstractTypeInfo)); memcpy(abstract,info,sizeof(JanetAbstractTypeInfo)); abstract->tag=janet_abstract_type_gentag(info->at->name,info->salt); if (!(janet_checktype(janet_table_get(janet_vm_registry,janet_wrap_number(abstract->tag)),JANET_NIL)) || !(janet_checktype(janet_table_get(janet_vm_registry,janet_ckeywordv(abstract->at->name)),JANET_NIL))) { janet_panic("Register abstract type fail, a type with same name or tag exist"); } janet_table_put(janet_vm_registry,janet_wrap_number(abstract->tag), janet_wrap_abstract(abstract)); janet_table_put(janet_vm_registry,janet_ckeywordv(abstract->at->name), janet_wrap_abstract(abstract)); } JanetAbstractTypeInfo * janet_get_abstract_type_info(uint32_t tag) { Janet info=janet_table_get(janet_vm_registry,janet_wrap_number(tag)); if (janet_checktype(info, JANET_NIL)) { return NULL; } if (!janet_checktype(info, JANET_ABSTRACT) || (janet_abstract_type(janet_unwrap_abstract(info)) != &type_info)) { janet_panic("expected type_info"); } JanetAbstractTypeInfo * type_info = (JanetAbstractTypeInfo *)janet_unwrap_abstract(info); return type_info; } JanetAbstractTypeInfo * janet_get_abstract_type_info_byname(const char * name) { Janet info=janet_table_get(janet_vm_registry,janet_ckeywordv(name)); if (janet_checktype(info, JANET_NIL)) { return NULL; } if (!janet_checktype(info, JANET_ABSTRACT) || (janet_abstract_type(janet_unwrap_abstract(info)) != &type_info)) { janet_panic("expected type_info"); } JanetAbstractTypeInfo * type_info = (JanetAbstractTypeInfo *)janet_unwrap_abstract(info); return type_info; } #ifndef JANET_BOOTSTRAP void janet_core_def(JanetTable *env, const char *name, Janet x, const void *p) { (void) p; janet_table_put(env, janet_csymbolv(name), x); } void janet_core_cfuns(JanetTable *env, const char *regprefix, const JanetReg *cfuns) { (void) regprefix; while (cfuns->name) { Janet name = janet_csymbolv(cfuns->name); Janet fun = janet_wrap_cfunction(cfuns->cfun); janet_core_def(env, cfuns->name, fun, cfuns->documentation); janet_table_put(janet_vm_registry, fun, name); cfuns++; } } #endif /* Resolve a symbol in the environment */ JanetBindingType janet_resolve(JanetTable *env, const uint8_t *sym, Janet *out) { Janet ref; JanetTable *entry_table; Janet entry = janet_table_get(env, janet_wrap_symbol(sym)); if (!janet_checktype(entry, JANET_TABLE)) return JANET_BINDING_NONE; entry_table = janet_unwrap_table(entry); if (!janet_checktype( janet_table_get(entry_table, janet_ckeywordv("macro")), JANET_NIL)) { *out = janet_table_get(entry_table, janet_ckeywordv("value")); return JANET_BINDING_MACRO; } ref = janet_table_get(entry_table, janet_ckeywordv("ref")); if (janet_checktype(ref, JANET_ARRAY)) { *out = ref; return JANET_BINDING_VAR; } *out = janet_table_get(entry_table, janet_ckeywordv("value")); return JANET_BINDING_DEF; } /* Read both tuples and arrays as c pointers + int32_t length. Return 1 if the * view can be constructed, 0 if an invalid type. */ int janet_indexed_view(Janet seq, const Janet **data, int32_t *len) { if (janet_checktype(seq, JANET_ARRAY)) { *data = janet_unwrap_array(seq)->data; *len = janet_unwrap_array(seq)->count; return 1; } else if (janet_checktype(seq, JANET_TUPLE)) { *data = janet_unwrap_tuple(seq); *len = janet_tuple_length(janet_unwrap_tuple(seq)); return 1; } return 0; } /* Read both strings and buffer as unsigned character array + int32_t len. * Returns 1 if the view can be constructed and 0 if the type is invalid. */ int janet_bytes_view(Janet str, const uint8_t **data, int32_t *len) { if (janet_checktype(str, JANET_STRING) || janet_checktype(str, JANET_SYMBOL) || janet_checktype(str, JANET_KEYWORD)) { *data = janet_unwrap_string(str); *len = janet_string_length(janet_unwrap_string(str)); return 1; } else if (janet_checktype(str, JANET_BUFFER)) { *data = janet_unwrap_buffer(str)->data; *len = janet_unwrap_buffer(str)->count; return 1; } return 0; } /* Read both structs and tables as the entries of a hashtable with * identical structure. Returns 1 if the view can be constructed and * 0 if the type is invalid. */ int janet_dictionary_view(Janet tab, const JanetKV **data, int32_t *len, int32_t *cap) { if (janet_checktype(tab, JANET_TABLE)) { *data = janet_unwrap_table(tab)->data; *cap = janet_unwrap_table(tab)->capacity; *len = janet_unwrap_table(tab)->count; return 1; } else if (janet_checktype(tab, JANET_STRUCT)) { *data = janet_unwrap_struct(tab); *cap = janet_struct_capacity(janet_unwrap_struct(tab)); *len = janet_struct_length(janet_unwrap_struct(tab)); return 1; } return 0; } int janet_checkint(Janet x) { if (!janet_checktype(x, JANET_NUMBER)) return 0; double dval = janet_unwrap_number(x); return janet_checkintrange(dval); } int janet_checkint64(Janet x) { if (!janet_checktype(x, JANET_NUMBER)) return 0; double dval = janet_unwrap_number(x); return janet_checkint64range(dval); } /* Useful for inspecting values while debugging */ void janet_inspect(Janet x) { printf("\n"); }