/* * 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 /* Begin creation of a struct */ DstValue *dst_struct_begin(int32_t count) { /* This expression determines size of structs. It must be a pure * function of count, and hold at least enough space for count * key value pairs. The minimum it could be is * sizeof(int32_t) * 2 + 2 * count * sizeof(DstValue). Adding more space * ensures that structs are less likely to have hash collisions. If more space * is added or s is changed, change the macro dst_struct_capacity in internal.h */ size_t s = sizeof(int32_t) * 2 + 4 * count * sizeof(DstValue); char *data = dst_alloc(DST_MEMORY_STRUCT, s); memset(data, 0, s); DstValue *st = (DstValue *) (data + 2 * sizeof(int32_t)); dst_struct_length(st) = count; /* Use the hash storage space as a counter to see how many items * were successfully added. If this number is not equal to the * original number, we will need to remake the struct using * only the kv pairs in the struct */ dst_struct_hash(st) = 0; return st; } /* Find an item in a struct */ static const DstValue *dst_struct_find(const DstValue *st, DstValue key) { int32_t cap = dst_struct_capacity(st); int32_t index = (dst_hash(key) % cap) & (~1); int32_t i; for (i = index; i < cap; i += 2) if (st[i].type == DST_NIL || dst_equals(st[i], key)) return st + i; for (i = 0; i < index; i += 2) if (st[i].type == DST_NIL || dst_equals(st[i], key)) return st + i; return NULL; } /* Put a kv pair into a struct that has not yet been fully constructed. * Nil keys and values are ignored, extra keys are ignore, and duplicate keys are * ignored. */ void dst_struct_put(DstValue *st, DstValue key, DstValue value) { int32_t cap = dst_struct_capacity(st); int32_t hash = dst_hash(key); int32_t index = (hash % cap) & (~1); int32_t i, j, dist; int32_t bounds[4] = {index, cap, 0, index}; if (key.type == DST_NIL || value.type == DST_NIL) return; /* Avoid extra items */ if (dst_struct_hash(st) == dst_struct_length(st)) return; for (dist = 0, j = 0; j < 4; j += 2) for (i = bounds[j]; i < bounds[j + 1]; i += 2, dist += 2) { int status; int32_t otherhash; int32_t otherindex, otherdist; /* We found an empty slot, so just add key and value */ if (st[i].type == DST_NIL) { st[i] = key; st[i + 1] = value; /* Update the temporary count */ dst_struct_hash(st)++; return; } /* Robinhood hashing - check if colliding kv pair * is closer to their source than current. We use robinhood * hashing to ensure that equivalent structs that are contsructed * with different order have the same internal layout, and therefor * will compare properly - i.e., {1 2 3 4} should equal {3 4 1 2}. */ otherhash = dst_hash(st[i]); otherindex = (otherhash % cap) & (~1); otherdist = (i + cap - otherindex) % cap; if (dist < otherdist) status = -1; else if (otherdist < dist) status = 1; else if (hash < otherhash) status = -1; else if (otherhash < hash) status = 1; else status = dst_compare(key, st[i]); /* If other is closer to their ideal slot */ if (status == 1) { /* Swap current kv pair with pair in slot */ DstValue t1, t2; t1 = st[i]; t2 = st[i + 1]; st[i] = key; st[i + 1] = value; key = t1; value = t2; /* Save dist and hash of new kv pair */ dist = otherdist; hash = otherhash; } else if (status == 0) { /* This should not happen - it means * than a key was added to the struct more than once */ return; } } } /* Finish building a struct */ const DstValue *dst_struct_end(DstValue *st) { if (dst_struct_hash(st) != dst_struct_length(st)) { /* Error building struct, probably duplicate values. We need to rebuild * the struct using only the values that went in. The second creation should always * succeed. */ int32_t i, realCount; DstValue *newst; realCount = 0; for (i = 0; i < dst_struct_capacity(st); i += 2) { realCount += st[i].type != DST_NIL; } newst = dst_struct_begin(realCount); for (i = 0; i < dst_struct_capacity(st); i += 2) { if (st[i].type != DST_NIL) { dst_struct_put(newst, st[i], st[i + 1]); } } st = newst; } dst_struct_hash(st) = 0; return (const DstValue *)st; } /* Get an item from a struct */ DstValue dst_struct_get(const DstValue *st, DstValue key) { const DstValue *bucket = dst_struct_find(st, key); if (!bucket || bucket[0].type == DST_NIL) { DstValue ret; ret.type = DST_NIL; return ret; } else { return bucket[1]; } } /* Get the next key in a struct */ DstValue dst_struct_next(const DstValue *st, DstValue key) { const DstValue *bucket, *end; end = st + dst_struct_capacity(st); if (key.type == DST_NIL) { bucket = st; } else { bucket = dst_struct_find(st, key); if (!bucket || bucket[0].type == DST_NIL) return dst_wrap_nil(); bucket += 2; } for (; bucket < end; bucket += 2) { if (bucket[0].type != DST_NIL) return bucket[0]; } return dst_wrap_nil(); } /* Convert struct to table */ DstTable *dst_struct_to_table(const DstValue *st) { DstTable *table = dst_table(dst_struct_capacity(st)); int32_t i; for (i = 0; i < dst_struct_capacity(st); i += 2) { if (st[i].type != DST_NIL) { dst_table_put(table, st[i], st[i + 1]); } } return table; } /* Check if two structs are equal */ int dst_struct_equal(const DstValue *lhs, const DstValue *rhs) { int32_t index; int32_t llen = dst_struct_capacity(lhs); int32_t rlen = dst_struct_capacity(rhs); int32_t lhash = dst_struct_hash(lhs); int32_t rhash = dst_struct_hash(rhs); if (llen != rlen) return 0; if (lhash == 0) lhash = dst_struct_hash(lhs) = dst_array_calchash(lhs, llen); if (rhash == 0) rhash = dst_struct_hash(rhs) = dst_array_calchash(rhs, rlen); if (lhash != rhash) return 0; for (index = 0; index < llen; index++) { if (!dst_equals(lhs[index], rhs[index])) return 0; } return 1; } /* Compare structs */ int dst_struct_compare(const DstValue *lhs, const DstValue *rhs) { int32_t i; int32_t lhash = dst_struct_hash(lhs); int32_t rhash = dst_struct_hash(rhs); int32_t llen = dst_struct_capacity(lhs); int32_t rlen = dst_struct_capacity(rhs); if (llen < rlen) return -1; if (llen > rlen) return 1; if (0 == lhash) lhash = dst_struct_hash(lhs) = dst_array_calchash(lhs, llen); if (0 == rhash) rhash = dst_struct_hash(rhs) = dst_array_calchash(rhs, rlen); if (lhash < rhash) return -1; if (lhash > rhash) return 1; for (i = 0; i < llen; ++i) { int comp = dst_compare(lhs[i], rhs[i]); if (comp != 0) return comp; } return 0; }