/* * Copyright (c) 2020 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. */ #ifndef JANET_AMALG #include "features.h" #include "util.h" #include #endif /* * Define a number of functions that can be used internally on ANY Janet. */ Janet janet_next(Janet ds, Janet key) { JanetType t = janet_type(ds); switch (t) { default: janet_panicf("expected iterable type, got %v", ds); case JANET_TABLE: case JANET_STRUCT: { const JanetKV *start; int32_t cap; if (t == JANET_TABLE) { JanetTable *tab = janet_unwrap_table(ds); cap = tab->capacity; start = tab->data; } else { JanetStruct st = janet_unwrap_struct(ds); cap = janet_struct_capacity(st); start = st; } const JanetKV *end = start + cap; const JanetKV *kv = janet_checktype(key, JANET_NIL) ? start : janet_dict_find(start, cap, key) + 1; while (kv < end) { if (!janet_checktype(kv->key, JANET_NIL)) return kv->key; kv++; } break; } case JANET_STRING: case JANET_KEYWORD: case JANET_SYMBOL: case JANET_BUFFER: case JANET_ARRAY: case JANET_TUPLE: { int32_t i; if (janet_checktype(key, JANET_NIL)) { i = 0; } else if (janet_checkint(key)) { i = janet_unwrap_integer(key) + 1; } else { break; } int32_t len; if (t == JANET_BUFFER) { len = janet_unwrap_buffer(ds)->count; } else if (t == JANET_ARRAY) { len = janet_unwrap_array(ds)->count; } else if (t == JANET_TUPLE) { len = janet_tuple_length(janet_unwrap_tuple(ds)); } else { len = janet_string_length(janet_unwrap_string(ds)); } if (i < len && i >= 0) { return janet_wrap_integer(i); } break; } } return janet_wrap_nil(); } /* Compare two abstract values */ static int janet_compare_abstract(JanetAbstract xx, JanetAbstract yy) { if (xx == yy) return 0; const JanetAbstractType *xt = janet_abstract_type(xx); const JanetAbstractType *yt = janet_abstract_type(yy); if (xt != yt) { return xt > yt ? 1 : -1; } if (xt->compare == NULL) { return xx > yy ? 1 : -1; } return xt->compare(xx, yy); } /* Check if two values are equal. This is strict equality with no conversion. */ int janet_equals(Janet x, Janet y) { int result = 0; if (janet_type(x) != janet_type(y)) { result = 0; } else { switch (janet_type(x)) { case JANET_NIL: result = 1; break; case JANET_BOOLEAN: result = (janet_unwrap_boolean(x) == janet_unwrap_boolean(y)); break; case JANET_NUMBER: result = (janet_unwrap_number(x) == janet_unwrap_number(y)); break; case JANET_STRING: result = janet_string_equal(janet_unwrap_string(x), janet_unwrap_string(y)); break; case JANET_TUPLE: result = janet_tuple_equal(janet_unwrap_tuple(x), janet_unwrap_tuple(y)); break; case JANET_STRUCT: result = janet_struct_equal(janet_unwrap_struct(x), janet_unwrap_struct(y)); break; case JANET_ABSTRACT: result = !janet_compare_abstract(janet_unwrap_abstract(x), janet_unwrap_abstract(y)); break; default: /* compare pointers */ result = (janet_unwrap_pointer(x) == janet_unwrap_pointer(y)); break; } } return result; } /* Computes a hash value for a function */ int32_t janet_hash(Janet x) { int32_t hash = 0; switch (janet_type(x)) { case JANET_NIL: hash = 0; break; case JANET_BOOLEAN: hash = janet_unwrap_boolean(x); break; case JANET_STRING: case JANET_SYMBOL: case JANET_KEYWORD: hash = janet_string_hash(janet_unwrap_string(x)); break; case JANET_TUPLE: hash = janet_tuple_hash(janet_unwrap_tuple(x)); break; case JANET_STRUCT: hash = janet_struct_hash(janet_unwrap_struct(x)); break; case JANET_ABSTRACT: { JanetAbstract xx = janet_unwrap_abstract(x); const JanetAbstractType *at = janet_abstract_type(xx); if (at->hash != NULL) { hash = at->hash(xx, janet_abstract_size(xx)); break; } } /* fallthrough */ default: /* TODO - test performance with different hash functions */ if (sizeof(double) == sizeof(void *)) { /* Assuming 8 byte pointer */ uint64_t i = janet_u64(x); hash = (int32_t)(i & 0xFFFFFFFF); /* Get a bit more entropy by shifting the low bits out */ hash >>= 3; hash ^= (int32_t)(i >> 32); } else { /* Assuming 4 byte pointer (or smaller) */ hash = (int32_t)((char *)janet_unwrap_pointer(x) - (char *)0); hash >>= 2; } break; } return hash; } /* Compares x to y. If they are equal returns 0. If x is less, returns -1. * If y is less, returns 1. All types are comparable * and should have strict ordering, excepts NaNs. */ int janet_compare(Janet x, Janet y) { if (janet_type(x) == janet_type(y)) { switch (janet_type(x)) { case JANET_NIL: return 0; case JANET_BOOLEAN: return janet_unwrap_boolean(x) - janet_unwrap_boolean(y); case JANET_NUMBER: { double xx = janet_unwrap_number(x); double yy = janet_unwrap_number(y); return xx == yy ? 0 : (xx < yy) ? -1 : 1; } case JANET_STRING: case JANET_SYMBOL: case JANET_KEYWORD: return janet_string_compare(janet_unwrap_string(x), janet_unwrap_string(y)); case JANET_TUPLE: return janet_tuple_compare(janet_unwrap_tuple(x), janet_unwrap_tuple(y)); case JANET_STRUCT: return janet_struct_compare(janet_unwrap_struct(x), janet_unwrap_struct(y)); case JANET_ABSTRACT: return janet_compare_abstract(janet_unwrap_abstract(x), janet_unwrap_abstract(y)); default: if (janet_unwrap_string(x) == janet_unwrap_string(y)) { return 0; } else { return janet_unwrap_string(x) > janet_unwrap_string(y) ? 1 : -1; } } } return (janet_type(x) < janet_type(y)) ? -1 : 1; } static int32_t getter_checkint(Janet key, int32_t max) { if (!janet_checkint(key)) goto bad; int32_t ret = janet_unwrap_integer(key); if (ret < 0) goto bad; if (ret >= max) goto bad; return ret; bad: janet_panicf("expected integer key in range [0, %d), got %v", max, key); } /* Gets a value and returns. Can panic. */ Janet janet_in(Janet ds, Janet key) { Janet value; switch (janet_type(ds)) { default: janet_panicf("expected %T, got %v", JANET_TFLAG_LENGTHABLE, ds); break; case JANET_STRUCT: value = janet_struct_get(janet_unwrap_struct(ds), key); break; case JANET_TABLE: value = janet_table_get(janet_unwrap_table(ds), key); break; case JANET_ARRAY: { JanetArray *array = janet_unwrap_array(ds); int32_t index = getter_checkint(key, array->count); value = array->data[index]; break; } case JANET_TUPLE: { const Janet *tuple = janet_unwrap_tuple(ds); int32_t len = janet_tuple_length(tuple); value = tuple[getter_checkint(key, len)]; break; } case JANET_BUFFER: { JanetBuffer *buffer = janet_unwrap_buffer(ds); int32_t index = getter_checkint(key, buffer->count); value = janet_wrap_integer(buffer->data[index]); break; } case JANET_STRING: case JANET_SYMBOL: case JANET_KEYWORD: { const uint8_t *str = janet_unwrap_string(ds); int32_t index = getter_checkint(key, janet_string_length(str)); value = janet_wrap_integer(str[index]); break; } case JANET_ABSTRACT: { JanetAbstractType *type = (JanetAbstractType *)janet_abstract_type(janet_unwrap_abstract(ds)); if (type->get) { if (!(type->get)(janet_unwrap_abstract(ds), key, &value)) janet_panicf("key %v not found in %v ", key, ds); } else { janet_panicf("no getter for %v ", ds); } break; } } return value; } Janet janet_get(Janet ds, Janet key) { JanetType t = janet_type(ds); switch (t) { default: return janet_wrap_nil(); case JANET_STRING: case JANET_SYMBOL: case JANET_KEYWORD: { if (!janet_checkint(key)) return janet_wrap_nil(); int32_t index = janet_unwrap_integer(key); if (index < 0) return janet_wrap_nil(); const uint8_t *str = janet_unwrap_string(ds); if (index >= janet_string_length(str)) return janet_wrap_nil(); return janet_wrap_integer(str[index]); } case JANET_ABSTRACT: { Janet value; void *abst = janet_unwrap_abstract(ds); JanetAbstractType *type = (JanetAbstractType *)janet_abstract_type(abst); if (!type->get) return janet_wrap_nil(); if ((type->get)(abst, key, &value)) return value; return janet_wrap_nil(); } case JANET_ARRAY: case JANET_TUPLE: case JANET_BUFFER: { if (!janet_checkint(key)) return janet_wrap_nil(); int32_t index = janet_unwrap_integer(key); if (index < 0) return janet_wrap_nil(); if (t == JANET_ARRAY) { JanetArray *a = janet_unwrap_array(ds); if (index >= a->count) return janet_wrap_nil(); return a->data[index]; } else if (t == JANET_BUFFER) { JanetBuffer *b = janet_unwrap_buffer(ds); if (index >= b->count) return janet_wrap_nil(); return janet_wrap_integer(b->data[index]); } else { const Janet *t = janet_unwrap_tuple(ds); if (index >= janet_tuple_length(t)) return janet_wrap_nil(); return t[index]; } } case JANET_TABLE: { return janet_table_get(janet_unwrap_table(ds), key); } case JANET_STRUCT: { const JanetKV *st = janet_unwrap_struct(ds); return janet_struct_get(st, key); } } } Janet janet_getindex(Janet ds, int32_t index) { Janet value; if (index < 0) janet_panic("expected non-negative index"); switch (janet_type(ds)) { default: janet_panicf("expected %T, got %v", JANET_TFLAG_LENGTHABLE, ds); break; case JANET_STRING: case JANET_SYMBOL: case JANET_KEYWORD: if (index >= janet_string_length(janet_unwrap_string(ds))) { value = janet_wrap_nil(); } else { value = janet_wrap_integer(janet_unwrap_string(ds)[index]); } break; case JANET_ARRAY: if (index >= janet_unwrap_array(ds)->count) { value = janet_wrap_nil(); } else { value = janet_unwrap_array(ds)->data[index]; } break; case JANET_BUFFER: if (index >= janet_unwrap_buffer(ds)->count) { value = janet_wrap_nil(); } else { value = janet_wrap_integer(janet_unwrap_buffer(ds)->data[index]); } break; case JANET_TUPLE: if (index >= janet_tuple_length(janet_unwrap_tuple(ds))) { value = janet_wrap_nil(); } else { value = janet_unwrap_tuple(ds)[index]; } break; case JANET_TABLE: value = janet_table_get(janet_unwrap_table(ds), janet_wrap_integer(index)); break; case JANET_STRUCT: value = janet_struct_get(janet_unwrap_struct(ds), janet_wrap_integer(index)); break; case JANET_ABSTRACT: { JanetAbstractType *type = (JanetAbstractType *)janet_abstract_type(janet_unwrap_abstract(ds)); if (type->get) { if (!(type->get)(janet_unwrap_abstract(ds), janet_wrap_integer(index), &value)) value = janet_wrap_nil(); } else { janet_panicf("no getter for %v ", ds); } break; } } return value; } int32_t janet_length(Janet x) { switch (janet_type(x)) { default: janet_panicf("expected %T, got %v", JANET_TFLAG_LENGTHABLE, x); case JANET_STRING: case JANET_SYMBOL: case JANET_KEYWORD: return janet_string_length(janet_unwrap_string(x)); case JANET_ARRAY: return janet_unwrap_array(x)->count; case JANET_BUFFER: return janet_unwrap_buffer(x)->count; case JANET_TUPLE: return janet_tuple_length(janet_unwrap_tuple(x)); case JANET_STRUCT: return janet_struct_length(janet_unwrap_struct(x)); case JANET_TABLE: return janet_unwrap_table(x)->count; case JANET_ABSTRACT: { Janet argv[1] = { x }; Janet len = janet_mcall("length", 1, argv); if (!janet_checkint(len)) janet_panicf("invalid integer length %v", len); return janet_unwrap_integer(len); } } } Janet janet_lengthv(Janet x) { switch (janet_type(x)) { default: janet_panicf("expected %T, got %v", JANET_TFLAG_LENGTHABLE, x); case JANET_STRING: case JANET_SYMBOL: case JANET_KEYWORD: return janet_wrap_integer(janet_string_length(janet_unwrap_string(x))); case JANET_ARRAY: return janet_wrap_integer(janet_unwrap_array(x)->count); case JANET_BUFFER: return janet_wrap_integer(janet_unwrap_buffer(x)->count); case JANET_TUPLE: return janet_wrap_integer(janet_tuple_length(janet_unwrap_tuple(x))); case JANET_STRUCT: return janet_wrap_integer(janet_struct_length(janet_unwrap_struct(x))); case JANET_TABLE: return janet_wrap_integer(janet_unwrap_table(x)->count); case JANET_ABSTRACT: { Janet argv[1] = { x }; return janet_mcall("length", 1, argv); } } } void janet_putindex(Janet ds, int32_t index, Janet value) { switch (janet_type(ds)) { default: janet_panicf("expected %T, got %v", JANET_TFLAG_ARRAY | JANET_TFLAG_BUFFER | JANET_TFLAG_TABLE, ds); case JANET_ARRAY: { JanetArray *array = janet_unwrap_array(ds); if (index >= array->count) { janet_array_ensure(array, index + 1, 2); array->count = index + 1; } array->data[index] = value; break; } case JANET_BUFFER: { JanetBuffer *buffer = janet_unwrap_buffer(ds); if (!janet_checkint(value)) janet_panicf("can only put integers in buffers, got %v", value); if (index >= buffer->count) { janet_buffer_ensure(buffer, index + 1, 2); buffer->count = index + 1; } buffer->data[index] = (uint8_t)(janet_unwrap_integer(value) & 0xFF); break; } case JANET_TABLE: { JanetTable *table = janet_unwrap_table(ds); janet_table_put(table, janet_wrap_integer(index), value); break; } case JANET_ABSTRACT: { JanetAbstractType *type = (JanetAbstractType *)janet_abstract_type(janet_unwrap_abstract(ds)); if (type->put) { (type->put)(janet_unwrap_abstract(ds), janet_wrap_integer(index), value); } else { janet_panicf("no setter for %v ", ds); } break; } } } void janet_put(Janet ds, Janet key, Janet value) { switch (janet_type(ds)) { default: janet_panicf("expected %T, got %v", JANET_TFLAG_ARRAY | JANET_TFLAG_BUFFER | JANET_TFLAG_TABLE, ds); case JANET_ARRAY: { JanetArray *array = janet_unwrap_array(ds); int32_t index = getter_checkint(key, INT32_MAX - 1); if (index >= array->count) { janet_array_setcount(array, index + 1); } array->data[index] = value; break; } case JANET_BUFFER: { JanetBuffer *buffer = janet_unwrap_buffer(ds); int32_t index = getter_checkint(key, INT32_MAX - 1); if (!janet_checkint(value)) janet_panicf("can only put integers in buffers, got %v", value); if (index >= buffer->count) { janet_buffer_setcount(buffer, index + 1); } buffer->data[index] = (uint8_t)(janet_unwrap_integer(value) & 0xFF); break; } case JANET_TABLE: janet_table_put(janet_unwrap_table(ds), key, value); break; case JANET_ABSTRACT: { JanetAbstractType *type = (JanetAbstractType *)janet_abstract_type(janet_unwrap_abstract(ds)); if (type->put) { (type->put)(janet_unwrap_abstract(ds), key, value); } else { janet_panicf("no setter for %v ", ds); } break; } } }