mirror of
https://github.com/janet-lang/janet
synced 2024-11-15 13:14:48 +00:00
4e4dd31164
Add quasiquote, unquote, and unquote-splicing as specials rather than a macro.
312 lines
10 KiB
C
312 lines
10 KiB
C
/*
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* Copyright (c) 2018 Calvin Rose
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to
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* deal in the Software without restriction, including without limitation the
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* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
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* sell copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
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* IN THE SOFTWARE.
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*/
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#include <janet/janet.h>
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#include "gc.h"
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#include <string.h>
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/* Initializes an array */
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JanetArray *janet_array_init(JanetArray *array, int32_t capacity) {
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Janet *data = NULL;
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if (capacity > 0) {
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data = (Janet *) malloc(sizeof(Janet) * capacity);
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if (NULL == data) {
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JANET_OUT_OF_MEMORY;
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}
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}
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array->count = 0;
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array->capacity = capacity;
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array->data = data;
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return array;
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}
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void janet_array_deinit(JanetArray *array) {
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free(array->data);
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}
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/* Creates a new array */
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JanetArray *janet_array(int32_t capacity) {
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JanetArray *array = janet_gcalloc(JANET_MEMORY_ARRAY, sizeof(JanetArray));
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return janet_array_init(array, capacity);
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}
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/* Creates a new array from n elements. */
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JanetArray *janet_array_n(const Janet *elements, int32_t n) {
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JanetArray *array = janet_gcalloc(JANET_MEMORY_ARRAY, sizeof(JanetArray));
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array->capacity = n;
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array->count = n;
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array->data = malloc(sizeof(Janet) * n);
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if (!array->data) {
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JANET_OUT_OF_MEMORY;
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}
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memcpy(array->data, elements, sizeof(Janet) * n);
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return array;
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}
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/* Ensure the array has enough capacity for elements */
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void janet_array_ensure(JanetArray *array, int32_t capacity, int32_t growth) {
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Janet *newData;
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Janet *old = array->data;
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if (capacity <= array->capacity) return;
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capacity *= growth;
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newData = realloc(old, capacity * sizeof(Janet));
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if (NULL == newData) {
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JANET_OUT_OF_MEMORY;
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}
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array->data = newData;
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array->capacity = capacity;
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}
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/* Set the count of an array. Extend with nil if needed. */
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void janet_array_setcount(JanetArray *array, int32_t count) {
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if (count < 0)
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return;
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if (count > array->count) {
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int32_t i;
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janet_array_ensure(array, count, 1);
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for (i = array->count; i < count; i++) {
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array->data[i] = janet_wrap_nil();
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}
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}
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array->count = count;
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}
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/* Push a value to the top of the array */
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void janet_array_push(JanetArray *array, Janet x) {
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int32_t newcount = array->count + 1;
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janet_array_ensure(array, newcount, 2);
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array->data[array->count] = x;
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array->count = newcount;
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}
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/* Pop a value from the top of the array */
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Janet janet_array_pop(JanetArray *array) {
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if (array->count) {
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return array->data[--array->count];
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} else {
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return janet_wrap_nil();
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}
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}
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/* Look at the last value in the array */
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Janet janet_array_peek(JanetArray *array) {
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if (array->count) {
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return array->data[array->count - 1];
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} else {
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return janet_wrap_nil();
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}
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}
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/* C Functions */
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static int cfun_new(JanetArgs args) {
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int32_t cap;
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JanetArray *array;
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JANET_FIXARITY(args, 1);
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JANET_ARG_INTEGER(cap, args, 0);
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array = janet_array(cap);
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JANET_RETURN_ARRAY(args, array);
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}
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static int cfun_pop(JanetArgs args) {
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JanetArray *array;
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JANET_FIXARITY(args, 1);
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JANET_ARG_ARRAY(array, args, 0);
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JANET_RETURN(args, janet_array_pop(array));
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}
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static int cfun_peek(JanetArgs args) {
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JanetArray *array;
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JANET_FIXARITY(args, 1);
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JANET_ARG_ARRAY(array, args, 0);
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JANET_RETURN(args, janet_array_peek(array));
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}
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static int cfun_push(JanetArgs args) {
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JanetArray *array;
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int32_t newcount;
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JANET_MINARITY(args, 1);
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JANET_ARG_ARRAY(array, args, 0);
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newcount = array->count - 1 + args.n;
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janet_array_ensure(array, newcount, 2);
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if (args.n > 1) memcpy(array->data + array->count, args.v + 1, (args.n - 1) * sizeof(Janet));
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array->count = newcount;
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JANET_RETURN(args, args.v[0]);
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}
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static int cfun_ensure(JanetArgs args) {
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JanetArray *array;
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int32_t newcount;
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int32_t growth;
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JANET_FIXARITY(args, 3);
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JANET_ARG_ARRAY(array, args, 0);
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JANET_ARG_INTEGER(newcount, args, 1);
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JANET_ARG_INTEGER(growth, args, 2);
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if (newcount < 0) JANET_THROW(args, "expected positive integer");
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janet_array_ensure(array, newcount, growth);
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JANET_RETURN(args, args.v[0]);
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}
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static int cfun_slice(JanetArgs args) {
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const Janet *vals;
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int32_t len;
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JanetArray *ret;
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int32_t start, end;
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JANET_MINARITY(args, 1);
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JANET_MAXARITY(args, 3);
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if (!janet_indexed_view(args.v[0], &vals, &len))
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JANET_THROW(args, "expected array|tuple");
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/* Get start */
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if (args.n < 2) {
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start = 0;
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} else if (janet_checktype(args.v[1], JANET_INTEGER)) {
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start = janet_unwrap_integer(args.v[1]);
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} else {
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JANET_THROW(args, "expected integer");
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}
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/* Get end */
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if (args.n < 3) {
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end = -1;
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} else if (janet_checktype(args.v[2], JANET_INTEGER)) {
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end = janet_unwrap_integer(args.v[2]);
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} else {
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JANET_THROW(args, "expected integer");
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}
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if (start < 0) start = len + start;
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if (end < 0) end = len + end + 1;
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if (end < 0 || start < 0 || end > len || start > len)
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JANET_THROW(args, "slice range out of bounds");
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if (end >= start) {
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ret = janet_array(end - start);
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memcpy(ret->data, vals + start, sizeof(Janet) * (end - start));
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ret->count = end - start;
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} else {
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ret = janet_array(0);
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}
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JANET_RETURN_ARRAY(args, ret);
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}
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static int cfun_concat(JanetArgs args) {
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int32_t i;
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JanetArray *array;
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JANET_MINARITY(args, 1);
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JANET_ARG_ARRAY(array, args, 0);
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for (i = 1; i < args.n; i++) {
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switch (janet_type(args.v[i])) {
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default:
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janet_array_push(array, args.v[i]);
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break;
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case JANET_ARRAY:
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case JANET_TUPLE:
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{
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int32_t j, len;
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const Janet *vals;
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janet_indexed_view(args.v[i], &vals, &len);
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for (j = 0; j < len; j++)
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janet_array_push(array, vals[j]);
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}
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break;
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}
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}
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JANET_RETURN_ARRAY(args, array);
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}
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static int cfun_insert(JanetArgs args) {
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int32_t at;
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size_t chunksize, restsize;
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JanetArray *array;
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JANET_MINARITY(args, 2);
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JANET_ARG_ARRAY(array, args, 0);
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JANET_ARG_INTEGER(at, args, 1);
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if (at < 0) {
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at = array->count + at + 1;
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}
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if (at < 0 || at > array->count)
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JANET_THROW(args, "insertion index out of bounds");
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chunksize = (args.n - 2) * sizeof(Janet);
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restsize = (array->count - at) * sizeof(Janet);
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janet_array_ensure(array, array->count + args.n - 2, 2);
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memmove(array->data + at + args.n - 2,
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array->data + at,
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restsize);
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memcpy(array->data + at, args.v + 2, chunksize);
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array->count += (args.n - 2);
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JANET_RETURN_ARRAY(args, array);
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}
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static const JanetReg cfuns[] = {
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{"array/new", cfun_new,
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"(array/new capacity)\n\n"
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"Creates a new empty array with a preallocated capacity. The same as "
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"(array) but can be more efficient if the maximum size of an array is known."
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},
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{"array/pop", cfun_pop,
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"(array/pop arr)\n\n"
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"Remove the last element of the array and return it. If the array is empty, will return nil. Modifies "
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"the input array."
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},
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{"array/peek", cfun_peek,
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"(array/peek arr)\n\n"
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"Returns the last element of the array. Does not modify the array."
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},
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{"array/push", cfun_push,
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"(array/push arr x)\n\n"
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"Insert an element in the end of an array. Modifies the input array and returns it."
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},
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{"array/ensure", cfun_ensure,
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"(array/ensure arr capacity)\n\n"
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"Ensures that the memory backing the array has enough memory for capacity "
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"items. Capacity must be an integer. If the backing capacity is already enough, "
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"then this function does nothing. Otherwise, the backing memory will be reallocated "
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"so that there is enough space."
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},
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{"array/slice", cfun_slice,
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"(array/slice arrtup [, start=0 [, end=(length arrtup)]])\n\n"
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"Takes a slice of array or tuple from start to end. The range is half open, "
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"[start, end). Indexes can also be negative, indicating indexing from the end of the "
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"end of the array. By default, start is 0 and end is the length of the array. "
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"Returns a new array."
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},
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{"array/concat", cfun_concat,
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"(array/concat arr & parts)\n\n"
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"Concatenates a variadic number of arrays (and tuples) into the first argument "
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"which must an array. If any of the parts are arrays or tuples, their elements will "
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"be inserted into the array. Otherwise, each part in parts will be appended to arr in order. "
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"Return the modified array arr."
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},
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{"array/insert", cfun_insert,
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"(array/insert arr at & xs)\n\n"
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"Insert all of xs into array arr at index at. at should be an integer "
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"0 and the length of the array. A negative value for at will index from "
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"the end of the array, such that inserting at -1 appends to the array. "
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"Returns the array."
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},
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{NULL, NULL, NULL}
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};
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/* Load the array module */
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int janet_lib_array(JanetArgs args) {
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JanetTable *env = janet_env(args);
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janet_cfuns(env, NULL, cfuns);
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return 0;
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}
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