/* * 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 #include "gc.h" /* Iniializes an array */ DstArray *dst_array_init(DstArray *array, int32_t capacity) { Dst *data = NULL; if (capacity > 0) { data = (Dst *) malloc(sizeof(Dst) * capacity); if (NULL == data) { DST_OUT_OF_MEMORY; } } array->count = 0; array->capacity = capacity; array->data = data; return array; } void dst_array_deinit(DstArray *array) { free(array->data); } /* Creates a new array */ DstArray *dst_array(int32_t capacity) { DstArray *array = dst_gcalloc(DST_MEMORY_ARRAY, sizeof(DstArray)); return dst_array_init(array, capacity); } /* Ensure the array has enough capacity for elements */ void dst_array_ensure(DstArray *array, int32_t capacity) { Dst *newData; Dst *old = array->data; if (capacity <= array->capacity) return; newData = realloc(old, capacity * sizeof(Dst)); if (NULL == newData) { DST_OUT_OF_MEMORY; } array->data = newData; array->capacity = capacity; } /* Set the count of an array. Extend with nil if needed. */ void dst_array_setcount(DstArray *array, int32_t count) { if (count < 0) return; if (count > array->count) { int32_t i; dst_array_ensure(array, count + 1); for (i = array->count; i < count; i++) { array->data[i] = dst_wrap_nil(); } } array->count = count; } /* Push a value to the top of the array */ void dst_array_push(DstArray *array, Dst x) { int32_t newcount = array->count + 1; if (newcount >= array->capacity) { dst_array_ensure(array, newcount * 2); } array->data[array->count] = x; array->count = newcount; } /* Pop a value from the top of the array */ Dst dst_array_pop(DstArray *array) { if (array->count) { return array->data[--array->count]; } else { return dst_wrap_nil(); } } /* Look at the last value in the array */ Dst dst_array_peek(DstArray *array) { if (array->count) { return array->data[array->count - 1]; } else { return dst_wrap_nil(); } } /* C Functions */ static int cfun_pop(DstArgs args) { if (args.n != 1 || !dst_checktype(args.v[0], DST_ARRAY)) return dst_throw(args, "expected array"); return dst_return(args, dst_array_pop(dst_unwrap_array(args.v[0]))); } static int cfun_peek(DstArgs args) { if (args.n != 1 || !dst_checktype(args.v[0], DST_ARRAY)) return dst_throw(args, "expected array"); return dst_return(args, dst_array_peek(dst_unwrap_array(args.v[0]))); } static int cfun_push(DstArgs args) { DstArray *array; int32_t newcount; if (args.n < 1 || !dst_checktype(args.v[0], DST_ARRAY)) return dst_throw(args, "expected array"); array = dst_unwrap_array(args.v[0]); newcount = array->count - 1 + args.n; dst_array_ensure(array, newcount); if (args.n > 1) memcpy(array->data + array->count, args.v + 1, (args.n - 1) * sizeof(Dst)); array->count = newcount; return dst_return(args, args.v[0]); } static int cfun_setcount(DstArgs args) { int32_t newcount; if (args.n != 2 || !dst_checktype(args.v[0], DST_ARRAY)) return dst_throw(args, "expected array"); if (!dst_checktype(args.v[1], DST_INTEGER)) return dst_throw(args, "expected positive integer"); newcount = dst_unwrap_integer(args.v[1]); if (newcount < 0) return dst_throw(args, "expected positive integer"); dst_array_setcount(dst_unwrap_array(args.v[0]), newcount); return dst_return(args, args.v[0]); } static int cfun_ensure(DstArgs args) { int32_t newcount; if (args.n != 2 || !dst_checktype(args.v[0], DST_ARRAY)) return dst_throw(args, "expected array"); if (!dst_checktype(args.v[1], DST_INTEGER)) return dst_throw(args, "expected positive integer"); newcount = dst_unwrap_integer(args.v[1]); if (newcount < 0) return dst_throw(args, "expected positive integer"); dst_array_ensure(dst_unwrap_array(args.v[0]), newcount); return dst_return(args, args.v[0]); } static int cfun_slice(DstArgs args) { const Dst *vals; int32_t len; DstArray *ret; int32_t start, end; if (args.n < 1 || !dst_seq_view(args.v[0], &vals, &len)) return dst_throw(args, "expected array/tuple"); /* Get start */ if (args.n < 2) { start = 0; } else if (dst_checktype(args.v[1], DST_INTEGER)) { start = dst_unwrap_integer(args.v[1]); } else { return dst_throw(args, "expected integer"); } /* Get end */ if (args.n < 3) { end = -1; } else if (dst_checktype(args.v[2], DST_INTEGER)) { end = dst_unwrap_integer(args.v[2]); } else { return dst_throw(args, "expected integer"); } if (start < 0) start = len + start; if (end < 0) end = len + end + 1; if (end >= start) { int32_t i, j; ret = dst_array(end - start); for (j = 0, i = start; i < end; j++, i++) { ret->data[j] = vals[i]; } ret->count = j; } else { ret = dst_array(0); } return dst_return(args, dst_wrap_array(ret)); } /* Load the array module */ int dst_lib_array(DstArgs args) { DstTable *env = dst_env_arg(args); dst_env_def(env, "array-pop", dst_wrap_cfunction(cfun_pop)); dst_env_def(env, "array-peek", dst_wrap_cfunction(cfun_peek)); dst_env_def(env, "array-push", dst_wrap_cfunction(cfun_push)); dst_env_def(env, "array-setcount", dst_wrap_cfunction(cfun_setcount)); dst_env_def(env, "array-ensure", dst_wrap_cfunction(cfun_ensure)); dst_env_def(env, "array-slice", dst_wrap_cfunction(cfun_slice)); return 0; }