/* * Copyright (c) 2017 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 /****/ /* Cache */ /****/ /* Calculate hash for string */ static uint32_t gst_string_calchash(const uint8_t *str, uint32_t len) { const uint8_t *end = str + len; uint32_t hash = 5381; while (str < end) hash = (hash << 5) + hash + *str++; return hash; } /* Calculate hash for tuple (and struct) */ static uint32_t gst_tuple_calchash(const GstValue *tuple, uint32_t len) { const GstValue *end = tuple + len; uint32_t hash = 5381; while (tuple < end) hash = (hash << 5) + hash + gst_hash(*tuple++); return hash; } /* Check if two not necesarrily finalized immutable values * are equal. Does caching logic */ static int gst_cache_equal(GstValue x, GstValue y) { uint32_t i, len; if (x.type != y.type) return 0; switch (x.type) { /* Don't bother implemeting equality checks for all types. We only care * about immutable data structures */ default: return 0; case GST_STRING: if (gst_string_hash(x.data.string) != gst_string_hash(y.data.string)) return 0; if (gst_string_length(x.data.string) != gst_string_length(y.data.string)) return 0; len = gst_string_length(x.data.string); for (i = 0; i < len; ++i) if (x.data.string[i] != y.data.string[i]) return 0; return 1; case GST_STRUCT: if (gst_struct_hash(x.data.st) != gst_struct_hash(y.data.st)) return 0; if (gst_struct_length(x.data.st) != gst_struct_length(y.data.st)) return 0; len = gst_struct_capacity(x.data.st); for (i = 0; i < len; ++i) if (!gst_equals(x.data.st[i], y.data.st[i])) return 0; return 1; case GST_TUPLE: if (gst_tuple_hash(x.data.tuple) != gst_tuple_hash(y.data.tuple)) return 0; if (gst_tuple_length(x.data.tuple) != gst_tuple_length(y.data.tuple)) return 0; len = gst_tuple_length(x.data.tuple); for (i = 0; i < len; ++i) if (!gst_equals(x.data.tuple[i], y.data.tuple[i])) return 0; return 1; } } /* Find an item in the cache and return its location. * If the item is not found, return the location * where one would put it. */ static GstValue *gst_cache_find(Gst *vm, GstValue key, int *success) { uint32_t bounds[4]; uint32_t i, j, index; uint32_t hash = gst_hash(key); GstValue *firstEmpty = NULL; index = hash % vm->cache_capacity; bounds[0] = index; bounds[1] = vm->cache_capacity; bounds[2] = 0; bounds[3] = index; for (j = 0; j < 4; j += 2) for (i = bounds[j]; i < bounds[j+1]; ++i) { GstValue test = vm->cache[i]; /* Check empty spots */ if (test.type == GST_NIL) { if (firstEmpty == NULL) firstEmpty = vm->cache + i; goto notfound; } /* Check for marked deleted - use booleans as deleted */ if (test.type == GST_BOOLEAN) { if (firstEmpty == NULL) firstEmpty = vm->cache + i; continue; } if (gst_cache_equal(test, key)) { /* Replace first deleted */ *success = 1; if (firstEmpty != NULL) { *firstEmpty = test; vm->cache[i].type = GST_BOOLEAN; return firstEmpty; } return vm->cache + i; } } notfound: *success = 0; return firstEmpty; } /* Resize the cache. */ static void gst_cache_resize(Gst *vm, uint32_t newCapacity) { uint32_t i, oldCapacity; GstValue *oldCache = vm->cache; GstValue *newCache = gst_raw_calloc(1, newCapacity * sizeof(GstValue)); if (newCache == NULL) GST_OUT_OF_MEMORY; oldCapacity = vm->cache_capacity; vm->cache = newCache; vm->cache_capacity = newCapacity; vm->cache_deleted = 0; /* Add all of the old strings back */ for (i = 0; i < oldCapacity; ++i) { int status; GstValue *bucket; GstValue x = oldCache[i]; if (x.type != GST_NIL && x.type != GST_BOOLEAN) { bucket = gst_cache_find(vm, x, &status); if (status || bucket == NULL) { /* there was a problem with the algorithm. */ break; } *bucket = x; } } /* Free the old cache */ gst_raw_free(oldCache); } /* Add a value to the cache */ static GstValue gst_cache_add(Gst *vm, GstValue x) { int status = 0; GstValue *bucket = gst_cache_find(vm, x, &status); if (!status) { if ((vm->cache_count + vm->cache_deleted) * 2 > vm->cache_capacity) { gst_cache_resize(vm, vm->cache_count * 4); bucket = gst_cache_find(vm, x, &status); } /* Mark the memory for the gc */ switch (x.type) { default: break; case GST_STRING: gst_mem_tag(gst_string_raw(x.data.string), GST_MEMTAG_STRING); break; case GST_STRUCT: gst_mem_tag(gst_struct_raw(x.data.st), GST_MEMTAG_STRUCT); break; case GST_TUPLE: gst_mem_tag(gst_tuple_raw(x.data.tuple), GST_MEMTAG_TUPLE); break; } /* Add x to the cache */ vm->cache_count++; *bucket = x; return x; } else { return *bucket; } } /* Remove a value from the cache */ static void gst_cache_remove(Gst *vm, GstValue x) { int status = 0; GstValue *bucket = gst_cache_find(vm, x, &status); if (status) { vm->cache_count--; vm->cache_deleted++; bucket->type = GST_BOOLEAN; } } /* Remove a string from cache (called from gc) */ void gst_cache_remove_string(Gst *vm, char *strmem) { GstValue x; x.type = GST_STRING; x.data.string = (const uint8_t *)(strmem + 2 * sizeof(uint32_t)); gst_cache_remove(vm, x); } /* Remove a tuple from cache (called from gc) */ void gst_cache_remove_tuple(Gst *vm, char *tuplemem) { GstValue x; x.type = GST_TUPLE; x.data.tuple = (const GstValue *)(tuplemem + 2 * sizeof(uint32_t)); gst_cache_remove(vm, x); } /* Remove a struct from cache (called from gc) */ void gst_cache_remove_struct(Gst *vm, char *structmem) { GstValue x; x.type = GST_STRUCT; x.data.st = (const GstValue *)(structmem + 2 * sizeof(uint32_t)); gst_cache_remove(vm, x); } /****/ /* Struct Functions */ /****/ /* Begin creation of a struct */ GstValue *gst_struct_begin(Gst *vm, uint32_t count) { char *data = gst_zalloc(vm, sizeof(uint32_t) * 2 + 4 * count * sizeof(GstValue)); GstValue *st = (GstValue *) (data + 2 * sizeof(uint32_t)); gst_struct_length(st) = count; return st; } /* Find an item in a struct */ static const GstValue *gst_struct_find(const GstValue *st, GstValue key) { uint32_t cap = gst_struct_capacity(st); uint32_t index = (gst_hash(key) % (cap / 2)) * 2; uint32_t i; for (i = index; i < cap; i += 2) { if (st[i].type == GST_NIL || gst_equals(st[i], key)) { return st + i; } } for (i = 0; i < index; i += 2) { if (st[i].type == GST_NIL || gst_equals(st[i], key)) { return st + i; } } return NULL; } /* Put a kv pair into a struct that has not yet been fully constructed. * Behavior is undefined if too many keys are added, or if a key is added * twice. Nil keys and values are ignored. */ void gst_struct_put(GstValue *st, GstValue key, GstValue value) { GstValue *bucket; if (key.type == GST_NIL || value.type == GST_NIL) return; bucket = (GstValue *) gst_struct_find(st, key); if (!bucket) return; bucket[0] = key; bucket[1] = value; } /* Finish building a struct */ const GstValue *gst_struct_end(Gst *vm, GstValue *st) { GstValue cached; GstValue check; gst_struct_hash(st) = gst_tuple_calchash(st, gst_struct_capacity(st)); check.type = GST_STRUCT; check.data.st = (const GstValue *) st; cached = gst_cache_add(vm, check); return cached.data.st; } /* Get an item from a struct */ GstValue gst_struct_get(const GstValue *st, GstValue key) { const GstValue *bucket = gst_struct_find(st, key); if (!bucket || bucket[0].type == GST_NIL) { GstValue ret; ret.type = GST_NIL; return ret; } else { return bucket[1]; } } /* Get the next key in a struct */ GstValue gst_struct_next(const GstValue *st, GstValue key) { GstValue ret; const GstValue *bucket; if (key.type == GST_NIL) bucket = st - 2; else bucket = gst_struct_find(st, key); if (bucket && bucket[0].type != GST_NIL) { const GstValue *nextbucket, *end; end = st + gst_struct_capacity(st); for (nextbucket = bucket + 2; nextbucket < end; nextbucket += 2) { if (nextbucket[0].type != GST_NIL) return nextbucket[0]; } } ret.type = GST_NIL; return ret; } /****/ /* Tuple functions */ /****/ /* Create a new empty tuple of the given size. Expected to be * mutated immediately */ GstValue *gst_tuple_begin(Gst *vm, uint32_t length) { char *data = gst_alloc(vm, 2 * sizeof(uint32_t) + length * sizeof(GstValue)); GstValue *tuple = (GstValue *)(data + (2 * sizeof(uint32_t))); gst_tuple_length(tuple) = length; return tuple; } /* Finish building a tuple */ const GstValue *gst_tuple_end(Gst *vm, GstValue *tuple) { GstValue cached; GstValue check; gst_tuple_hash(tuple) = gst_tuple_calchash(tuple, gst_tuple_length(tuple)); check.type = GST_TUPLE; check.data.tuple = (const GstValue *) tuple; cached = gst_cache_add(vm, check); return cached.data.tuple; } /****/ /* String Functions */ /****/ /* Begin building a string */ uint8_t *gst_string_begin(Gst *vm, uint32_t length) { char *data = gst_alloc(vm, 2 * sizeof(uint32_t) + length + 1); uint8_t *str = (uint8_t *) (data + 2 * sizeof(uint32_t)); gst_string_length(str) = length; str[length] = 0; return str; } /* Finish building a string */ const uint8_t *gst_string_end(Gst *vm, uint8_t *str) { GstValue cached; GstValue check; gst_string_hash(str) = gst_string_calchash(str, gst_string_length(str)); check.type = GST_STRING; check.data.string = (const uint8_t *) str; cached = gst_cache_add(vm, check); return cached.data.string; } /* Load a buffer as a string */ const uint8_t *gst_string_b(Gst *vm, const uint8_t *buf, uint32_t len) { GstValue cached; GstValue check; uint32_t newbufsize = len + 2 * sizeof(uint32_t) + 1; uint8_t *str; /* Ensure enough scratch memory */ if (vm->scratch_len < newbufsize) { vm->scratch = gst_alloc(vm, newbufsize); vm->scratch_len = newbufsize; } str = (uint8_t *)(vm->scratch + 2 * sizeof(uint32_t)); gst_memcpy(str, buf, len); gst_string_length(str) = len; gst_string_hash(str) = gst_string_calchash(str, gst_string_length(str)); str[len] = 0; check.type = GST_STRING; check.data.string = (const uint8_t *) str; cached = gst_cache_add(vm, check); if (cached.data.string == (const uint8_t *) str) { vm->scratch_len = 0; vm->scratch = NULL; } return cached.data.string; } /* Load a c string */ const uint8_t *gst_string_c(Gst *vm, const char *str) { uint32_t len = 0; while (str[len]) ++len; return gst_string_b(vm, (const uint8_t *)str, len); } /* Load a c string and return it as a GstValue */ GstValue gst_string_cv(Gst *vm, const char *str) { GstValue ret; const uint8_t *data = gst_string_c(vm, str); ret.type = GST_STRING; ret.data.string = data; return ret; }