/* * 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 /* * Define a number of functions that can be used internally on ANY DstValue. */ /* Boolean truth definition */ int dst_truthy(DstValue v) { return v.type != DST_NIL && !(v.type == DST_BOOLEAN && !v.as.boolean); } /* Check if two values are equal. This is strict equality with no conversion. */ int dst_equals(DstValue x, DstValue y) { int result = 0; if (x.type != y.type) { result = 0; } else { switch (x.type) { case DST_NIL: result = 1; break; case DST_BOOLEAN: result = (x.as.boolean == y.as.boolean); break; case DST_REAL: result = (x.as.real == y.as.real); break; case DST_INTEGER: result = (x.as.integer == y.as.integer); break; default: /* compare pointers */ result = (x.as.pointer == y.as.pointer); break; } } return result; } /* Computes a hash value for a function */ uint32_t dst_hash(DstValue x) { uint32_t hash = 0; switch (x.type) { case DST_NIL: hash = 0; break; case DST_BOOLEAN: hash = x.as.boolean; break; case DST_STRING: case DST_SYMBOL: hash = dst_string_hash(x.as.string); break; case DST_TUPLE: hash = dst_tuple_hash(x.as.tuple); break; case DST_STRUCT: hash = dst_struct_hash(x.as.st); break; default: if (sizeof(double) == sizeof(void *)) { /* Assuming 8 byte pointer */ uint64_t i = x.as.integer; hash = (i >> 32) ^ (i & 0xFFFFFFFF); } else { /* Assuming 4 byte pointer (or smaller) */ hash = (uint32_t) x.as.pointer; } break; } return hash; } /* Computes hash of an array of values */ uint32_t dst_calchash_array(const DstValue *array, uint32_t len) { const DstValue *end = array + len; uint32_t hash = 5381; while (array < end) hash = (hash << 5) + hash + dst_hash(*array++); return hash; } /* Compare two strings */ int dst_string_compare(const uint8_t *lhs, const uint8_t *rhs) { uint32_t xlen = dst_string_length(lhs); uint32_t ylen = dst_string_length(rhs); uint32_t len = xlen > ylen ? ylen : xlen; uint32_t i; for (i = 0; i < len; ++i) { if (lhs[i] == rhs[i]) { continue; } else if (lhs[i] < rhs[i]) { return -1; /* x is less than y */ } else { return 1; /* y is less than x */ } } if (xlen == ylen) { return 0; } else { return xlen < ylen ? -1 : 1; } } /* Compares x to y. If they are equal retuns 0. If x is less, returns -1. * If y is less, returns 1. All types are comparable * and should have strict ordering. */ int dst_compare(DstValue x, DstValue y) { if (x.type == y.type) { switch (x.type) { case DST_NIL: return 0; case DST_BOOLEAN: if (x.as.boolean == y.as.boolean) { return 0; } else { return x.as.boolean ? 1 : -1; } case DST_REAL: /* Check for nans to ensure total order */ if (x.as.real != x.as.real) return y.as.real != y.as.real ? 0 : -1; if (y.as.real != y.as.real) return 1; if (x.as.real == y.as.real) { return 0; } else { return x.as.real > y.as.real ? 1 : -1; } case DST_INTEGER: if (x.as.integer == y.as.integer) { return 0; } else { return x.as.integer > y.as.integer ? 1 : -1; } case DST_STRING: return dst_string_compare(x.as.string, y.as.string); /* Lower indices are most significant */ case DST_TUPLE: { uint32_t i; uint32_t xlen = dst_tuple_length(x.as.tuple); uint32_t ylen = dst_tuple_length(y.as.tuple); uint32_t count = xlen < ylen ? xlen : ylen; for (i = 0; i < count; ++i) { int comp = dst_compare(x.as.tuple[i], y.as.tuple[i]); if (comp != 0) return comp; } if (xlen < ylen) return -1; else if (xlen > ylen) return 1; return 0; } break; /* TODO - how should structs compare by default? For now, just use pointers. */ default: if (x.as.string == y.as.string) { return 0; } else { return x.as.string > y.as.string ? 1 : -1; } } } else if (x.type < y.type) { return -1; } return 1; } /* Get a value out af an associated data structure. For invalid * data structure or invalid key, returns nil. */ DstValue dst_get(DstValue ds, DstValue key) { switch (ds.type) { case DST_ARRAY: if (key.type == DST_INTEGER && key.as.integer >= 0 && key.as.integer < ds.as.array->count) return ds.as.array->data[key.as.integer]; break; case DST_TUPLE: if (key.type == DST_INTEGER && key.as.integer >= 0 && key.as.integer < dst_tuple_length(ds.as.tuple)) return ds.as.tuple[key.as.integer]; break; case DST_BUFFER: if (key.type == DST_INTEGER && key.as.integer >= 0 && key.as.integer < ds.as.buffer->count) return dst_wrap_integer(ds.as.buffer->data[key.as.integer]); break; case DST_STRING: case DST_SYMBOL: if (key.type == DST_INTEGER && key.as.integer >= 0 && key.as.integer < dst_string_length(ds.as.string)) return dst_wrap_integer(ds.as.string[key.as.integer]); break; case DST_STRUCT: return dst_struct_get(ds.as.st, key); case DST_TABLE: return dst_table_get(ds.as.table, key); default: break; } return dst_wrap_nil(); } /* Set a value in an associative data structure. Returns possible * error message, and NULL if no error. */ void dst_put(DstValue ds, DstValue key, DstValue value) { switch (ds.type) { case DST_ARRAY: if (key.type == DST_INTEGER && key.as.integer >= 0 && key.as.integer < ds.as.array->count) ds.as.array->data[key.as.integer] = value; return; case DST_BUFFER: if (key.type == DST_INTEGER && value.type == DST_INTEGER && key.as.integer >= 0 && key.as.integer < ds.as.buffer->count) ds.as.buffer->data[key.as.integer] = value.as.integer; return; case DST_TABLE: dst_table_put(ds.as.table, key, value); return; default: return; } } /* Get the next key in an associative data structure. Used for iterating through an * associative data structure. */ DstValue dst_next(DstValue ds, DstValue key) { switch(ds.type) { default: return dst_wrap_nil(); case DST_TABLE: return dst_table_next(ds.as.table, key); case DST_STRUCT: return dst_struct_next(ds.as.st, key); } } /* Get the length of an object. Returns errors for invalid types */ uint32_t dst_length(DstValue x) { switch (x.type) { default: return 0; case DST_STRING: return dst_string_length(x.as.string); case DST_ARRAY: return x.as.array->count; case DST_BUFFER: return x.as.buffer->count; case DST_TUPLE: return dst_tuple_length(x.as.tuple); case DST_STRUCT: return dst_struct_length(x.as.st); case DST_TABLE: return x.as.table->count; } } /* Get the capacity of an object. Returns 0 for invalid types */ uint32_t dst_capacity(DstValue x) { switch (x.type) { default: return 0; case DST_STRING: return dst_string_length(x.as.string); case DST_ARRAY: return x.as.array->capacity; case DST_BUFFER: return x.as.buffer->capacity; case DST_TUPLE: return dst_tuple_length(x.as.tuple); case DST_STRUCT: return dst_struct_length(x.as.st); case DST_TABLE: return x.as.table->capacity; } } /* Index into a data structure. Returns nil for out of bounds or invliad data structure */ DstValue dst_getindex(DstValue ds, uint32_t index) { switch (ds.type) { default: return dst_wrap_nil(); case DST_STRING: if (index >= dst_string_length(ds.as.string)) return dst_wrap_nil(); return dst_wrap_integer(ds.as.string[index]); case DST_ARRAY: if (index >= ds.as.array->count) return dst_wrap_nil(); return ds.as.array->data[index]; case DST_BUFFER: if (index >= ds.as.buffer->count) return dst_wrap_nil(); return dst_wrap_integer(ds.as.buffer->data[index]); case DST_TUPLE: if (index >= dst_tuple_length(ds.as.tuple)) return dst_wrap_nil(); return ds.as.tuple[index]; } } /* Set an index in a linear data structure. Does nothing if data structure * is invalid */ void dst_setindex(DstValue ds, DstValue value, uint32_t index) { switch (ds.type) { default: return; case DST_ARRAY: if (index >= ds.as.array->count) { dst_array_ensure(ds.as.array, 2 * index); ds.as.array->count = index + 1; } ds.as.array->data[index] = value; return; case DST_BUFFER: if (value.type != DST_INTEGER) return; if (index >= ds.as.buffer->count) { dst_buffer_ensure(ds.as.buffer, 2 * index); ds.as.buffer->count = index + 1; } ds.as.buffer->data[index] = value.as.integer; return; } }