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buffer.c
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buffer.c
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#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#ifdef _WIN32
#include <windows.h>
#else
#include <sys/mman.h>
#endif
#include "ant.h"
#include "arena.h"
#include "runtime.h"
#include "modules/buffer.h"
#include "modules/symbol.h"
#define TA_ARENA_SIZE (16 * 1024 * 1024)
static uint8_t *ta_arena = NULL;
static size_t ta_arena_offset = 0;
static void *ta_arena_alloc(size_t size) {
size = (size + 7) & ~7;
if (!ta_arena) {
#ifdef _WIN32
ta_arena = VirtualAlloc(NULL, TA_ARENA_SIZE, MEM_COMMIT | MEM_RESERVE, PAGE_READWRITE);
if (!ta_arena) return NULL;
#else
void *hint = (void *)0x100000;
ta_arena = mmap(
hint, TA_ARENA_SIZE, PROT_READ | PROT_WRITE,
MAP_PRIVATE | MAP_ANONYMOUS, -1, 0);
if (ta_arena == MAP_FAILED) {
ta_arena = mmap(
NULL, TA_ARENA_SIZE, PROT_READ | PROT_WRITE,
MAP_PRIVATE | MAP_ANONYMOUS, -1, 0);
}
if (ta_arena == MAP_FAILED) return NULL;
#endif
}
if (ta_arena_offset + size > TA_ARENA_SIZE) return NULL;
void *ptr = ta_arena + ta_arena_offset;
ta_arena_offset += size;
return ptr;
}
static jsval_t js_arraybuffer_slice(struct js *js, jsval_t *args, int nargs);
static jsval_t js_typedarray_slice(struct js *js, jsval_t *args, int nargs);
static jsval_t js_typedarray_subarray(struct js *js, jsval_t *args, int nargs);
static jsval_t js_typedarray_fill(struct js *js, jsval_t *args, int nargs);
static jsval_t js_typedarray_toReversed(struct js *js, jsval_t *args, int nargs);
static jsval_t js_typedarray_toSorted(struct js *js, jsval_t *args, int nargs);
static jsval_t js_typedarray_with(struct js *js, jsval_t *args, int nargs);
static jsval_t js_dataview_getUint8(struct js *js, jsval_t *args, int nargs);
static jsval_t js_dataview_setUint8(struct js *js, jsval_t *args, int nargs);
static jsval_t js_dataview_getInt16(struct js *js, jsval_t *args, int nargs);
static jsval_t js_dataview_setInt16(struct js *js, jsval_t *args, int nargs);
static jsval_t js_dataview_getInt32(struct js *js, jsval_t *args, int nargs);
static jsval_t js_dataview_setInt32(struct js *js, jsval_t *args, int nargs);
static jsval_t js_dataview_getFloat32(struct js *js, jsval_t *args, int nargs);
static jsval_t js_dataview_setFloat32(struct js *js, jsval_t *args, int nargs);
static jsval_t js_dataview_getFloat64(struct js *js, jsval_t *args, int nargs);
static jsval_t js_dataview_setFloat64(struct js *js, jsval_t *args, int nargs);
static jsval_t js_buffer_toString(struct js *js, jsval_t *args, int nargs);
static jsval_t js_buffer_toBase64(struct js *js, jsval_t *args, int nargs);
static jsval_t js_buffer_write(struct js *js, jsval_t *args, int nargs);
static const char base64_chars[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
static const unsigned char base64_decode_table[256] = {
['A'] = 0, ['B'] = 1, ['C'] = 2, ['D'] = 3, ['E'] = 4, ['F'] = 5, ['G'] = 6, ['H'] = 7,
['I'] = 8, ['J'] = 9, ['K'] = 10, ['L'] = 11, ['M'] = 12, ['N'] = 13, ['O'] = 14, ['P'] = 15,
['Q'] = 16, ['R'] = 17, ['S'] = 18, ['T'] = 19, ['U'] = 20, ['V'] = 21, ['W'] = 22, ['X'] = 23,
['Y'] = 24, ['Z'] = 25, ['a'] = 26, ['b'] = 27, ['c'] = 28, ['d'] = 29, ['e'] = 30, ['f'] = 31,
['g'] = 32, ['h'] = 33, ['i'] = 34, ['j'] = 35, ['k'] = 36, ['l'] = 37, ['m'] = 38, ['n'] = 39,
['o'] = 40, ['p'] = 41, ['q'] = 42, ['r'] = 43, ['s'] = 44, ['t'] = 45, ['u'] = 46, ['v'] = 47,
['w'] = 48, ['x'] = 49, ['y'] = 50, ['z'] = 51, ['0'] = 52, ['1'] = 53, ['2'] = 54, ['3'] = 55,
['4'] = 56, ['5'] = 57, ['6'] = 58, ['7'] = 59, ['8'] = 60, ['9'] = 61, ['+'] = 62, ['/'] = 63,
};
static char *base64_encode(const uint8_t *data, size_t len, size_t *out_len) {
size_t encoded_len = 4 * ((len + 2) / 3);
char *result = malloc(encoded_len + 1);
if (!result) return NULL;
size_t j = 0;
for (size_t i = 0; i < len; i += 3) {
uint32_t octet_a = i < len ? data[i] : 0;
uint32_t octet_b = i + 1 < len ? data[i + 1] : 0;
uint32_t octet_c = i + 2 < len ? data[i + 2] : 0;
uint32_t triple = (octet_a << 16) + (octet_b << 8) + octet_c;
result[j++] = base64_chars[(triple >> 18) & 0x3F];
result[j++] = base64_chars[(triple >> 12) & 0x3F];
result[j++] = (i + 1 < len) ? base64_chars[(triple >> 6) & 0x3F] : '=';
result[j++] = (i + 2 < len) ? base64_chars[triple & 0x3F] : '=';
}
result[j] = '\0';
*out_len = j;
return result;
}
static uint8_t *base64_decode(const char *data, size_t len, size_t *out_len) {
if (len % 4 != 0) return NULL;
size_t decoded_len = len / 4 * 3;
if (len > 0 && data[len - 1] == '=') decoded_len--;
if (len > 1 && data[len - 2] == '=') decoded_len--;
uint8_t *result = malloc(decoded_len);
if (!result) return NULL;
size_t j = 0;
for (size_t i = 0; i < len; i += 4) {
uint32_t sextet_a = base64_decode_table[(unsigned char)data[i]];
uint32_t sextet_b = base64_decode_table[(unsigned char)data[i + 1]];
uint32_t sextet_c = data[i + 2] == '=' ? 0 : base64_decode_table[(unsigned char)data[i + 2]];
uint32_t sextet_d = data[i + 3] == '=' ? 0 : base64_decode_table[(unsigned char)data[i + 3]];
uint32_t triple = (sextet_a << 18) + (sextet_b << 12) + (sextet_c << 6) + sextet_d;
if (j < decoded_len) result[j++] = (triple >> 16) & 0xFF;
if (j < decoded_len) result[j++] = (triple >> 8) & 0xFF;
if (j < decoded_len) result[j++] = triple & 0xFF;
}
*out_len = decoded_len;
return result;
}
static ArrayBufferData *create_array_buffer_data(size_t length) {
ArrayBufferData *data = ANT_GC_MALLOC(sizeof(ArrayBufferData) + length);
if (!data) return NULL;
data->data = (uint8_t *)(data + 1);
memset(data->data, 0, length);
data->length = length;
data->capacity = length;
data->ref_count = 1;
data->is_shared = 0;
return data;
}
static ArrayBufferData *create_shared_array_buffer_data(size_t length) {
ArrayBufferData *data = create_array_buffer_data(length);
if (data) data->is_shared = 1;
return data;
}
static void free_array_buffer_data(ArrayBufferData *data) {
if (!data) return;
data->ref_count--;
if (data->ref_count <= 0) ANT_GC_FREE(data);
}
static size_t get_element_size(TypedArrayType type) {
static const void *dispatch[] = {
&&L_1, &&L_1, &&L_1, &&L_2, &&L_2,
&&L_4, &&L_4, &&L_4, &&L_8, &&L_8, &&L_8
};
if (type > TYPED_ARRAY_BIGUINT64) goto L_1;
goto *dispatch[type];
L_1: return 1;
L_2: return 2;
L_4: return 4;
L_8: return 8;
}
// ArrayBuffer constructor
static jsval_t js_arraybuffer_constructor(struct js *js, jsval_t *args, int nargs) {
size_t length = 0;
if (nargs > 0 && js_type(args[0]) == JS_NUM) {
length = (size_t)js_getnum(args[0]);
}
ArrayBufferData *data = create_array_buffer_data(length);
if (!data) {
return js_mkerr(js, "Failed to allocate ArrayBuffer");
}
jsval_t obj = js_mkobj(js);
jsval_t proto = js_get_ctor_proto(js, "ArrayBuffer", 11);
if (js_type(proto) == JS_OBJ) js_set_proto(js, obj, proto);
js_set_slot(js, obj, SLOT_BUFFER, ANT_PTR(data));
js_set(js, obj, "byteLength", js_mknum(length));
return obj;
}
// ArrayBuffer.prototype.slice(begin, end)
static jsval_t js_arraybuffer_slice(struct js *js, jsval_t *args, int nargs) {
jsval_t this_val = js_getthis(js);
jsval_t data_val = js_get_slot(js, this_val, SLOT_BUFFER);
if (js_type(data_val) != JS_NUM) {
return js_mkerr(js, "Not an ArrayBuffer");
}
ArrayBufferData *data = (ArrayBufferData *)(uintptr_t)js_getnum(data_val);
if (!data) return js_mkerr(js, "Invalid ArrayBuffer");
int begin = 0, end = data->length;
if (nargs > 0 && js_type(args[0]) == JS_NUM) begin = (int)js_getnum(args[0]);
if (nargs > 1 && js_type(args[1]) == JS_NUM) end = (int)js_getnum(args[1]);
if (begin < 0) begin = data->length + begin;
if (end < 0) end = data->length + end;
if (begin < 0) begin = 0;
if (end < 0) end = 0;
if (begin > (int)data->length) begin = data->length;
if (end > (int)data->length) end = data->length;
if (end < begin) end = begin;
size_t new_length = end - begin;
ArrayBufferData *new_data = create_array_buffer_data(new_length);
if (!new_data) return js_mkerr(js, "Failed to allocate new ArrayBuffer");
memcpy(new_data->data, data->data + begin, new_length);
jsval_t new_obj = js_mkobj(js);
jsval_t proto = js_get_ctor_proto(js, "ArrayBuffer", 11);
if (js_type(proto) == JS_OBJ) js_set_proto(js, new_obj, proto);
js_set_slot(js, new_obj, SLOT_BUFFER, ANT_PTR(new_data));
js_set(js, new_obj, "byteLength", js_mknum(new_length));
return new_obj;
}
static jsval_t typedarray_index_getter(struct js *js, jsval_t obj, const char *key, size_t key_len) {
if (key_len == 0 || key_len > 10) return js_mkundef();
size_t index = 0;
for (size_t i = 0; i < key_len; i++) {
char c = key[i];
if (c < '0' || c > '9') return js_mkundef();
index = index * 10 + (c - '0');
}
jsval_t ta_val = js_get_slot(js, obj, SLOT_BUFFER);
TypedArrayData *ta_data = (TypedArrayData *)js_gettypedarray(ta_val);
if (!ta_data || index >= ta_data->length) return js_mkundef();
uint8_t *data = ta_data->buffer->data + ta_data->byte_offset;
double value;
static const void *dispatch[] = {
&&L_INT8, &&L_UINT8, &&L_UINT8, &&L_INT16, &&L_UINT16,
&&L_INT32, &&L_UINT32, &&L_FLOAT32, &&L_FLOAT64, &&L_UNDEF, &&L_UNDEF
};
if (ta_data->type > TYPED_ARRAY_BIGUINT64) goto L_UNDEF;
goto *dispatch[ta_data->type];
L_INT8: value = (double)((int8_t*)data)[index]; goto L_DONE;
L_UINT8: value = (double)data[index]; goto L_DONE;
L_INT16: value = (double)((int16_t*)data)[index]; goto L_DONE;
L_UINT16: value = (double)((uint16_t*)data)[index]; goto L_DONE;
L_INT32: value = (double)((int32_t*)data)[index]; goto L_DONE;
L_UINT32: value = (double)((uint32_t*)data)[index]; goto L_DONE;
L_FLOAT32: value = (double)((float*)data)[index]; goto L_DONE;
L_FLOAT64: value = ((double*)data)[index]; goto L_DONE;
L_UNDEF: return js_mkundef();
L_DONE: return js_mknum(value);
}
static bool typedarray_index_setter(struct js *js, jsval_t obj, const char *key, size_t key_len, jsval_t value) {
if (key_len == 0 || key_len > 10) return false;
size_t index = 0;
for (size_t i = 0; i < key_len; i++) {
char c = key[i];
if (c < '0' || c > '9') return false;
index = index * 10 + (c - '0');
}
jsval_t ta_val = js_get_slot(js, obj, SLOT_BUFFER);
TypedArrayData *ta_data = (TypedArrayData *)js_gettypedarray(ta_val);
if (!ta_data || index >= ta_data->length) return false;
double num_val = js_type(value) == JS_NUM ? js_getnum(value) : 0;
uint8_t *data = ta_data->buffer->data + ta_data->byte_offset;
static const void *dispatch[] = {
&&S_INT8, &&S_UINT8, &&S_UINT8, &&S_INT16, &&S_UINT16,
&&S_INT32, &&S_UINT32, &&S_FLOAT32, &&S_FLOAT64, &&S_FAIL, &&S_FAIL
};
if (ta_data->type > TYPED_ARRAY_BIGUINT64) goto S_FAIL;
goto *dispatch[ta_data->type];
S_INT8: ((int8_t*)data)[index] = (int8_t)num_val; goto S_DONE;
S_UINT8: data[index] = (uint8_t)num_val; goto S_DONE;
S_INT16: ((int16_t*)data)[index] = (int16_t)num_val; goto S_DONE;
S_UINT16: ((uint16_t*)data)[index] = (uint16_t)num_val; goto S_DONE;
S_INT32: ((int32_t*)data)[index] = (int32_t)num_val; goto S_DONE;
S_UINT32: ((uint32_t*)data)[index] = (uint32_t)num_val; goto S_DONE;
S_FLOAT32: ((float*)data)[index] = (float)num_val; goto S_DONE;
S_FLOAT64: ((double*)data)[index] = num_val; goto S_DONE;
S_FAIL: return false;
S_DONE: return true;
}
static jsval_t create_arraybuffer_obj(struct js *js, ArrayBufferData *buffer) {
jsval_t ab_obj = js_mkobj(js);
jsval_t ab_proto = js_get_ctor_proto(js, "ArrayBuffer", 11);
if (js_type(ab_proto) == JS_OBJ) js_set_proto(js, ab_obj, ab_proto);
js_set_slot(js, ab_obj, SLOT_BUFFER, js_mknum((double)(uintptr_t)buffer));
js_set(js, ab_obj, "byteLength", js_mknum((double)buffer->length));
buffer->ref_count++;
return ab_obj;
}
static jsval_t create_typed_array_with_buffer(
struct js *js, TypedArrayType type, ArrayBufferData *buffer,
size_t byte_offset, size_t length, const char *type_name, jsval_t arraybuffer_obj
) {
TypedArrayData *ta_data = ta_arena_alloc(sizeof(TypedArrayData));
if (!ta_data) return js_mkerr(js, "Failed to allocate TypedArray");
size_t element_size = get_element_size(type);
ta_data->buffer = buffer;
ta_data->type = type;
ta_data->byte_offset = byte_offset;
ta_data->byte_length = length * element_size;
ta_data->length = length;
buffer->ref_count++;
jsval_t obj = js_mkobj(js);
jsval_t proto = js_get_ctor_proto(js, type_name, strlen(type_name));
if (js_type(proto) == JS_OBJ) js_set_proto(js, obj, proto);
js_set_slot(js, obj, SLOT_BUFFER, js_mktypedarray(ta_data));
js_set(js, obj, "length", js_mknum((double)length));
js_set(js, obj, "byteLength", js_mknum((double)(length * element_size)));
js_set(js, obj, "byteOffset", js_mknum((double)byte_offset));
js_set(js, obj, "BYTES_PER_ELEMENT", js_mknum((double)element_size));
js_set(js, obj, "buffer", arraybuffer_obj);
js_set_getter(js, obj, typedarray_index_getter);
js_set_setter(js, obj, typedarray_index_setter);
return obj;
}
static jsval_t create_typed_array(
struct js *js, TypedArrayType type, ArrayBufferData *buffer,
size_t byte_offset, size_t length, const char *type_name
) {
jsval_t ab_obj = create_arraybuffer_obj(js, buffer);
return create_typed_array_with_buffer(js, type, buffer, byte_offset, length, type_name, ab_obj);
}
typedef struct {
jsval_t *values;
size_t length;
size_t capacity;
} iter_collect_ctx_t;
static bool iter_collect_callback(struct js *js, jsval_t value, void *udata) {
(void)js;
iter_collect_ctx_t *ctx = (iter_collect_ctx_t *)udata;
if (ctx->length >= ctx->capacity) {
ctx->capacity *= 2;
jsval_t *new_values = realloc(ctx->values, ctx->capacity * sizeof(jsval_t));
if (!new_values) return false;
ctx->values = new_values;
}
ctx->values[ctx->length++] = value;
return true;
}
static jsval_t js_typedarray_constructor(struct js *js, jsval_t *args, int nargs, TypedArrayType type, const char *type_name) {
if (nargs == 0) {
ArrayBufferData *buffer = create_array_buffer_data(0);
return create_typed_array(js, type, buffer, 0, 0, type_name);
}
if (js_type(args[0]) == JS_NUM) {
size_t length = (size_t)js_getnum(args[0]);
size_t element_size = get_element_size(type);
ArrayBufferData *buffer = create_array_buffer_data(length * element_size);
if (!buffer) return js_mkerr(js, "Failed to allocate buffer");
return create_typed_array(js, type, buffer, 0, length, type_name);
}
jsval_t buffer_data_val = js_get_slot(js, args[0], SLOT_BUFFER);
if (js_type(buffer_data_val) == JS_NUM) {
ArrayBufferData *buffer = (ArrayBufferData *)(uintptr_t)js_getnum(buffer_data_val);
size_t byte_offset = 0;
size_t length = buffer->length;
if (nargs > 1 && js_type(args[1]) == JS_NUM) {
byte_offset = (size_t)js_getnum(args[1]);
}
size_t element_size = get_element_size(type);
if (nargs > 2 && js_type(args[2]) == JS_NUM) {
length = (size_t)js_getnum(args[2]);
} else {
length = (buffer->length - byte_offset) / element_size;
}
return create_typed_array_with_buffer(js, type, buffer, byte_offset, length, type_name, args[0]);
}
int arg_type = js_type(args[0]);
if (arg_type == JS_OBJ) {
jsval_t len_val = js_get(js, args[0], "length");
size_t length = 0; jsval_t *values = NULL;
bool is_iterable = false;
if (js_type(len_val) == JS_NUM) length = (size_t)js_getnum(len_val); else {
iter_collect_ctx_t ctx = { .values = NULL, .length = 0, .capacity = 16 };
ctx.values = malloc(ctx.capacity * sizeof(jsval_t));
if (!ctx.values) return js_mkerr(js, "Failed to allocate memory");
is_iterable = js_iter(js, args[0], iter_collect_callback, &ctx);
if (is_iterable) {
values = ctx.values;
length = ctx.length;
} else free(ctx.values);
}
if (length > 0 || is_iterable || js_type(len_val) == JS_NUM) {
size_t element_size = get_element_size(type);
ArrayBufferData *buffer = create_array_buffer_data(length * element_size);
if (!buffer) { if (values) free(values); return js_mkerr(js, "Failed to allocate buffer"); }
jsval_t result = create_typed_array(js, type, buffer, 0, length, type_name);
uint8_t *data = buffer->data;
static const void *write_dispatch[] = {
&&W_INT8, &&W_UINT8, &&W_UINT8, &&W_INT16, &&W_UINT16,
&&W_INT32, &&W_UINT32, &&W_FLOAT32, &&W_FLOAT64, &&W_DONE, &&W_DONE
};
for (size_t i = 0; i < length; i++) {
jsval_t elem;
if (values) elem = values[i]; else {
char idx_str[16];
snprintf(idx_str, sizeof(idx_str), "%zu", i);
elem = js_get(js, args[0], idx_str);
}
double val = js_type(elem) == JS_NUM ? js_getnum(elem) : 0;
if (type > TYPED_ARRAY_BIGUINT64) goto W_DONE;
goto *write_dispatch[type];
W_INT8: ((int8_t*)data)[i] = (int8_t)val; goto W_NEXT;
W_UINT8: data[i] = (uint8_t)val; goto W_NEXT;
W_INT16: ((int16_t*)data)[i] = (int16_t)val; goto W_NEXT;
W_UINT16: ((uint16_t*)data)[i] = (uint16_t)val; goto W_NEXT;
W_INT32: ((int32_t*)data)[i] = (int32_t)val; goto W_NEXT;
W_UINT32: ((uint32_t*)data)[i] = (uint32_t)val; goto W_NEXT;
W_FLOAT32: ((float*)data)[i] = (float)val; goto W_NEXT;
W_FLOAT64: ((double*)data)[i] = val; goto W_NEXT;
W_NEXT:;
}
W_DONE:
if (values) free(values);
return result;
}
}
return js_mkerr(js, "Invalid TypedArray constructor arguments");
}
// TypedArray.prototype.slice(begin, end)
static jsval_t js_typedarray_slice(struct js *js, jsval_t *args, int nargs) {
jsval_t this_val = js_getthis(js);
jsval_t ta_data_val = js_get_slot(js, this_val, SLOT_BUFFER);
TypedArrayData *ta_data = (TypedArrayData *)js_gettypedarray(ta_data_val);
if (!ta_data) return js_mkerr(js, "Invalid TypedArray");
int begin = 0, end = ta_data->length;
if (nargs > 0 && js_type(args[0]) == JS_NUM) begin = (int)js_getnum(args[0]);
if (nargs > 1 && js_type(args[1]) == JS_NUM) end = (int)js_getnum(args[1]);
if (begin < 0) begin = ta_data->length + begin;
if (end < 0) end = ta_data->length + end;
if (begin < 0) begin = 0;
if (end < 0) end = 0;
if (begin > (int)ta_data->length) begin = ta_data->length;
if (end > (int)ta_data->length) end = ta_data->length;
if (end < begin) end = begin;
size_t new_length = end - begin;
size_t element_size = get_element_size(ta_data->type);
ArrayBufferData *new_buffer = create_array_buffer_data(new_length * element_size);
if (!new_buffer) return js_mkerr(js, "Failed to allocate new buffer");
memcpy(
new_buffer->data,
ta_data->buffer->data + ta_data->byte_offset + begin * element_size,
new_length * element_size
);
return create_typed_array(js, ta_data->type, new_buffer, 0, new_length, "TypedArray");
}
// TypedArray.prototype.subarray(begin, end)
static jsval_t js_typedarray_subarray(struct js *js, jsval_t *args, int nargs) {
jsval_t this_val = js_getthis(js);
jsval_t ta_data_val = js_get_slot(js, this_val, SLOT_BUFFER);
TypedArrayData *ta_data = (TypedArrayData *)js_gettypedarray(ta_data_val);
if (!ta_data) return js_mkerr(js, "Invalid TypedArray");
int begin = 0, end = ta_data->length;
if (nargs > 0 && js_type(args[0]) == JS_NUM) begin = (int)js_getnum(args[0]);
if (nargs > 1 && js_type(args[1]) == JS_NUM) end = (int)js_getnum(args[1]);
if (begin < 0) begin = ta_data->length + begin;
if (end < 0) end = ta_data->length + end;
if (begin < 0) begin = 0;
if (end < 0) end = 0;
if (begin > (int)ta_data->length) begin = ta_data->length;
if (end > (int)ta_data->length) end = ta_data->length;
if (end < begin) end = begin;
size_t new_length = end - begin;
size_t element_size = get_element_size(ta_data->type);
size_t new_offset = ta_data->byte_offset + begin * element_size;
return create_typed_array(js, ta_data->type, ta_data->buffer, new_offset, new_length, "TypedArray");
}
// TypedArray.prototype.fill(value, start, end)
static jsval_t js_typedarray_fill(struct js *js, jsval_t *args, int nargs) {
jsval_t this_val = js_getthis(js);
jsval_t ta_data_val = js_get_slot(js, this_val, SLOT_BUFFER);
TypedArrayData *ta_data = (TypedArrayData *)js_gettypedarray(ta_data_val);
if (!ta_data) return js_mkerr(js, "Invalid TypedArray");
double value = 0;
if (nargs > 0 && js_type(args[0]) == JS_NUM) value = js_getnum(args[0]);
int start = 0, end = ta_data->length;
if (nargs > 1 && js_type(args[1]) == JS_NUM) start = (int)js_getnum(args[1]);
if (nargs > 2 && js_type(args[2]) == JS_NUM) end = (int)js_getnum(args[2]);
if (start < 0) start = ta_data->length + start;
if (end < 0) end = ta_data->length + end;
if (start < 0) start = 0;
if (end < 0) end = 0;
if (start > (int)ta_data->length) start = ta_data->length;
if (end > (int)ta_data->length) end = ta_data->length;
if (end < start) end = start;
uint8_t *data = ta_data->buffer->data + ta_data->byte_offset;
static const void *dispatch[] = {
&&L_INT8, &&L_UINT8, &&L_UINT8, &&L_INT16, &&L_UINT16,
&&L_INT32, &&L_UINT32, &&L_FLOAT32, &&L_FLOAT64, &&L_DONE, &&L_DONE
};
if (ta_data->type > TYPED_ARRAY_BIGUINT64) goto L_DONE;
goto *dispatch[ta_data->type];
L_INT8:
for (int i = start; i < end; i++) ((int8_t*)data)[i] = (int8_t)value;
goto L_DONE;
L_UINT8:
for (int i = start; i < end; i++) data[i] = (uint8_t)value;
goto L_DONE;
L_INT16:
for (int i = start; i < end; i++) ((int16_t*)data)[i] = (int16_t)value;
goto L_DONE;
L_UINT16:
for (int i = start; i < end; i++) ((uint16_t*)data)[i] = (uint16_t)value;
goto L_DONE;
L_INT32:
for (int i = start; i < end; i++) ((int32_t*)data)[i] = (int32_t)value;
goto L_DONE;
L_UINT32:
for (int i = start; i < end; i++) ((uint32_t*)data)[i] = (uint32_t)value;
goto L_DONE;
L_FLOAT32:
for (int i = start; i < end; i++) ((float*)data)[i] = (float)value;
goto L_DONE;
L_FLOAT64:
for (int i = start; i < end; i++) ((double*)data)[i] = value;
goto L_DONE;
L_DONE:
return this_val;
}
// TypedArray.prototype.toReversed()
static jsval_t js_typedarray_toReversed(struct js *js, jsval_t *args, int nargs) {
(void)args; (void)nargs;
jsval_t this_val = js_getthis(js);
jsval_t ta_data_val = js_get_slot(js, this_val, SLOT_BUFFER);
TypedArrayData *ta_data = (TypedArrayData *)js_gettypedarray(ta_data_val);
if (!ta_data) return js_mkerr(js, "Invalid TypedArray");
size_t length = ta_data->length;
size_t element_size = get_element_size(ta_data->type);
ArrayBufferData *new_buffer = create_array_buffer_data(length * element_size);
if (!new_buffer) return js_mkerr(js, "Failed to allocate new buffer");
uint8_t *src = ta_data->buffer->data + ta_data->byte_offset;
uint8_t *dst = new_buffer->data;
for (size_t i = 0; i < length; i++) {
memcpy(dst + i * element_size, src + (length - 1 - i) * element_size, element_size);
}
return create_typed_array(js, ta_data->type, new_buffer, 0, length, "TypedArray");
}
// TypedArray.prototype.toSorted(comparefn)
static jsval_t js_typedarray_toSorted(struct js *js, jsval_t *args, int nargs) {
jsval_t this_val = js_getthis(js);
jsval_t ta_data_val = js_get_slot(js, this_val, SLOT_BUFFER);
TypedArrayData *ta_data = (TypedArrayData *)js_gettypedarray(ta_data_val);
if (!ta_data) return js_mkerr(js, "Invalid TypedArray");
size_t length = ta_data->length;
size_t element_size = get_element_size(ta_data->type);
ArrayBufferData *new_buffer = create_array_buffer_data(length * element_size);
if (!new_buffer) return js_mkerr(js, "Failed to allocate new buffer");
memcpy(new_buffer->data, ta_data->buffer->data + ta_data->byte_offset, length * element_size);
jsval_t result = create_typed_array(js, ta_data->type, new_buffer, 0, length, "TypedArray");
jsval_t result_ta_val = js_get_slot(js, result, SLOT_BUFFER);
TypedArrayData *result_ta = (TypedArrayData *)js_gettypedarray(result_ta_val);
uint8_t *data = result_ta->buffer->data;
jsval_t comparefn = (nargs > 0 && js_type(args[0]) == JS_FUNC) ? args[0] : js_mkundef();
bool has_comparefn = js_type(comparefn) == JS_FUNC;
for (size_t i = 1; i < length; i++) {
for (size_t j = i; j > 0; j--) {
double a_val, b_val;
int cmp;
static const void *read_dispatch[] = {
&&R_INT8, &&R_UINT8, &&R_UINT8, &&R_INT16, &&R_UINT16,
&&R_INT32, &&R_UINT32, &&R_FLOAT32, &&R_FLOAT64, &&R_DONE, &&R_DONE
};
if (ta_data->type > TYPED_ARRAY_BIGUINT64) goto R_DONE;
goto *read_dispatch[ta_data->type];
R_INT8: a_val = (double)((int8_t*)data)[j-1]; b_val = (double)((int8_t*)data)[j]; goto R_COMPARE;
R_UINT8: a_val = (double)data[j-1]; b_val = (double)data[j]; goto R_COMPARE;
R_INT16: a_val = (double)((int16_t*)data)[j-1]; b_val = (double)((int16_t*)data)[j]; goto R_COMPARE;
R_UINT16: a_val = (double)((uint16_t*)data)[j-1]; b_val = (double)((uint16_t*)data)[j]; goto R_COMPARE;
R_INT32: a_val = (double)((int32_t*)data)[j-1]; b_val = (double)((int32_t*)data)[j]; goto R_COMPARE;
R_UINT32: a_val = (double)((uint32_t*)data)[j-1]; b_val = (double)((uint32_t*)data)[j]; goto R_COMPARE;
R_FLOAT32: a_val = (double)((float*)data)[j-1]; b_val = (double)((float*)data)[j]; goto R_COMPARE;
R_FLOAT64: a_val = ((double*)data)[j-1]; b_val = ((double*)data)[j]; goto R_COMPARE;
R_DONE: goto SORT_DONE;
R_COMPARE:
if (has_comparefn) {
jsval_t cmp_args[2] = { js_mknum(a_val), js_mknum(b_val) };
jsval_t cmp_result = js_call(js, comparefn, cmp_args, 2);
cmp = (int)js_getnum(cmp_result);
} else {
cmp = (a_val > b_val) ? 1 : ((a_val < b_val) ? -1 : 0);
}
if (cmp <= 0) break;
static const void *swap_dispatch[] = {
&&S_INT8, &&S_UINT8, &&S_UINT8, &&S_INT16, &&S_UINT16,
&&S_INT32, &&S_UINT32, &&S_FLOAT32, &&S_FLOAT64, &&S_DONE, &&S_DONE
};
if (ta_data->type > TYPED_ARRAY_BIGUINT64) goto S_DONE;
goto *swap_dispatch[ta_data->type];
S_INT8: { int8_t tmp = ((int8_t*)data)[j-1]; ((int8_t*)data)[j-1] = ((int8_t*)data)[j]; ((int8_t*)data)[j] = tmp; goto S_DONE; }
S_UINT8: { uint8_t tmp = data[j-1]; data[j-1] = data[j]; data[j] = tmp; goto S_DONE; }
S_INT16: { int16_t tmp = ((int16_t*)data)[j-1]; ((int16_t*)data)[j-1] = ((int16_t*)data)[j]; ((int16_t*)data)[j] = tmp; goto S_DONE; }
S_UINT16: { uint16_t tmp = ((uint16_t*)data)[j-1]; ((uint16_t*)data)[j-1] = ((uint16_t*)data)[j]; ((uint16_t*)data)[j] = tmp; goto S_DONE; }
S_INT32: { int32_t tmp = ((int32_t*)data)[j-1]; ((int32_t*)data)[j-1] = ((int32_t*)data)[j]; ((int32_t*)data)[j] = tmp; goto S_DONE; }
S_UINT32: { uint32_t tmp = ((uint32_t*)data)[j-1]; ((uint32_t*)data)[j-1] = ((uint32_t*)data)[j]; ((uint32_t*)data)[j] = tmp; goto S_DONE; }
S_FLOAT32: { float tmp = ((float*)data)[j-1]; ((float*)data)[j-1] = ((float*)data)[j]; ((float*)data)[j] = tmp; goto S_DONE; }
S_FLOAT64: { double tmp = ((double*)data)[j-1]; ((double*)data)[j-1] = ((double*)data)[j]; ((double*)data)[j] = tmp; goto S_DONE; }
S_DONE:;
}
}
SORT_DONE:
return result;
}
// TypedArray.prototype.with(index, value)
static jsval_t js_typedarray_with(struct js *js, jsval_t *args, int nargs) {
if (nargs < 2) return js_mkerr(js, "with requires index and value");
jsval_t this_val = js_getthis(js);
jsval_t ta_data_val = js_get_slot(js, this_val, SLOT_BUFFER);
TypedArrayData *ta_data = (TypedArrayData *)js_gettypedarray(ta_data_val);
if (!ta_data) return js_mkerr(js, "Invalid TypedArray");
int index = (int)js_getnum(args[0]);
double value = js_getnum(args[1]);
size_t length = ta_data->length;
if (index < 0) index = length + index;
if (index < 0 || (size_t)index >= length) {
return js_mkerr(js, "Index out of bounds");
}
size_t element_size = get_element_size(ta_data->type);
ArrayBufferData *new_buffer = create_array_buffer_data(length * element_size);
if (!new_buffer) return js_mkerr(js, "Failed to allocate new buffer");
memcpy(new_buffer->data, ta_data->buffer->data + ta_data->byte_offset, length * element_size);
uint8_t *data = new_buffer->data;
static const void *dispatch[] = {
&&W_INT8, &&W_UINT8, &&W_UINT8, &&W_INT16, &&W_UINT16,
&&W_INT32, &&W_UINT32, &&W_FLOAT32, &&W_FLOAT64, &&W_DONE, &&W_DONE
};
if (ta_data->type > TYPED_ARRAY_BIGUINT64) goto W_DONE;
goto *dispatch[ta_data->type];
W_INT8: ((int8_t*)data)[index] = (int8_t)value; goto W_DONE;
W_UINT8: data[index] = (uint8_t)value; goto W_DONE;
W_INT16: ((int16_t*)data)[index] = (int16_t)value; goto W_DONE;
W_UINT16: ((uint16_t*)data)[index] = (uint16_t)value; goto W_DONE;
W_INT32: ((int32_t*)data)[index] = (int32_t)value; goto W_DONE;
W_UINT32: ((uint32_t*)data)[index] = (uint32_t)value; goto W_DONE;
W_FLOAT32: ((float*)data)[index] = (float)value; goto W_DONE;
W_FLOAT64: ((double*)data)[index] = value; goto W_DONE;
W_DONE:
return create_typed_array(js, ta_data->type, new_buffer, 0, length, "TypedArray");
}
#define DEFINE_TYPEDARRAY_CONSTRUCTOR(name, type) \
static jsval_t js_##name##_constructor(struct js *js, jsval_t *args, int nargs) { \
return js_typedarray_constructor(js, args, nargs, type, #name); \
}
DEFINE_TYPEDARRAY_CONSTRUCTOR(Int8Array, TYPED_ARRAY_INT8)
DEFINE_TYPEDARRAY_CONSTRUCTOR(Uint8Array, TYPED_ARRAY_UINT8)
DEFINE_TYPEDARRAY_CONSTRUCTOR(Uint8ClampedArray, TYPED_ARRAY_UINT8_CLAMPED)
DEFINE_TYPEDARRAY_CONSTRUCTOR(Int16Array, TYPED_ARRAY_INT16)
DEFINE_TYPEDARRAY_CONSTRUCTOR(Uint16Array, TYPED_ARRAY_UINT16)
DEFINE_TYPEDARRAY_CONSTRUCTOR(Int32Array, TYPED_ARRAY_INT32)
DEFINE_TYPEDARRAY_CONSTRUCTOR(Uint32Array, TYPED_ARRAY_UINT32)
DEFINE_TYPEDARRAY_CONSTRUCTOR(Float32Array, TYPED_ARRAY_FLOAT32)
DEFINE_TYPEDARRAY_CONSTRUCTOR(Float64Array, TYPED_ARRAY_FLOAT64)
DEFINE_TYPEDARRAY_CONSTRUCTOR(BigInt64Array, TYPED_ARRAY_BIGINT64)
DEFINE_TYPEDARRAY_CONSTRUCTOR(BigUint64Array, TYPED_ARRAY_BIGUINT64)
static jsval_t js_dataview_constructor(struct js *js, jsval_t *args, int nargs) {
if (nargs < 1) {
return js_mkerr(js, "DataView requires an ArrayBuffer");
}
jsval_t buffer_data_val = js_get_slot(js, args[0], SLOT_BUFFER);
if (js_type(buffer_data_val) != JS_NUM) {
return js_mkerr(js, "First argument must be an ArrayBuffer");
}
ArrayBufferData *buffer = (ArrayBufferData *)(uintptr_t)js_getnum(buffer_data_val);
size_t byte_offset = 0;
size_t byte_length = buffer->length;
if (nargs > 1 && js_type(args[1]) == JS_NUM) {
byte_offset = (size_t)js_getnum(args[1]);
}
if (nargs > 2 && js_type(args[2]) == JS_NUM) {
byte_length = (size_t)js_getnum(args[2]);
} else {
byte_length = buffer->length - byte_offset;
}
DataViewData *dv_data = ANT_GC_MALLOC(sizeof(DataViewData));
if (!dv_data) return js_mkerr(js, "Failed to allocate DataView");
dv_data->buffer = buffer;
dv_data->byte_offset = byte_offset;
dv_data->byte_length = byte_length;
buffer->ref_count++;
jsval_t obj = js_mkobj(js);
jsval_t proto = js_get_ctor_proto(js, "DataView", 8);
if (js_type(proto) == JS_OBJ) js_set_proto(js, obj, proto);
js_set_slot(js, obj, SLOT_DATA, ANT_PTR(dv_data));
js_mkprop_fast(js, obj, "buffer", 6, args[0]);
js_set_descriptor(js, obj, "buffer", 6, 0);
js_set(js, obj, "byteLength", js_mknum((double)byte_length));
js_set(js, obj, "byteOffset", js_mknum((double)byte_offset));
return obj;
}
// DataView.prototype.getUint8(byteOffset)
static jsval_t js_dataview_getUint8(struct js *js, jsval_t *args, int nargs) {
if (nargs < 1) return js_mkerr(js, "getUint8 requires byteOffset");
jsval_t this_val = js_getthis(js);
jsval_t dv_data_val = js_get_slot(js, this_val, SLOT_DATA);
if (js_type(dv_data_val) != JS_NUM) {
return js_mkerr(js, "Not a DataView");
}
DataViewData *dv = (DataViewData *)(uintptr_t)js_getnum(dv_data_val);
size_t offset = (size_t)js_getnum(args[0]);
if (offset >= dv->byte_length) {
return js_mkerr(js, "Offset out of bounds");
}
uint8_t value = dv->buffer->data[dv->byte_offset + offset];
return js_mknum((double)value);
}
// DataView.prototype.setUint8(byteOffset, value)
static jsval_t js_dataview_setUint8(struct js *js, jsval_t *args, int nargs) {
if (nargs < 2) return js_mkerr(js, "setUint8 requires byteOffset and value");
jsval_t this_val = js_getthis(js);
jsval_t dv_data_val = js_get_slot(js, this_val, SLOT_DATA);
if (js_type(dv_data_val) != JS_NUM) {
return js_mkerr(js, "Not a DataView");
}
DataViewData *dv = (DataViewData *)(uintptr_t)js_getnum(dv_data_val);
size_t offset = (size_t)js_getnum(args[0]);
uint8_t value = (uint8_t)js_to_uint32(js_getnum(args[1]));
if (offset >= dv->byte_length) {
return js_mkerr(js, "Offset out of bounds");
}
dv->buffer->data[dv->byte_offset + offset] = value;
return js_mkundef();
}
// DataView.prototype.getInt16(byteOffset, littleEndian)
static jsval_t js_dataview_getInt16(struct js *js, jsval_t *args, int nargs) {
if (nargs < 1) return js_mkerr(js, "getInt16 requires byteOffset");
jsval_t this_val = js_getthis(js);
jsval_t dv_data_val = js_get_slot(js, this_val, SLOT_DATA);
if (js_type(dv_data_val) != JS_NUM) {
return js_mkerr(js, "Not a DataView");
}
DataViewData *dv = (DataViewData *)(uintptr_t)js_getnum(dv_data_val);
size_t offset = (size_t)js_getnum(args[0]);
bool little_endian = (nargs > 1 && js_truthy(js, args[1]));
if (offset + 2 > dv->byte_length) {
return js_mkerr(js, "Offset out of bounds");
}
uint8_t *ptr = dv->buffer->data + dv->byte_offset + offset;
int16_t value;
if (little_endian) {
value = (int16_t)(ptr[0] | (ptr[1] << 8));
} else {
value = (int16_t)((ptr[0] << 8) | ptr[1]);
}
return js_mknum((double)value);
}
// DataView.prototype.getInt32(byteOffset, littleEndian)
static jsval_t js_dataview_getInt32(struct js *js, jsval_t *args, int nargs) {
if (nargs < 1) return js_mkerr(js, "getInt32 requires byteOffset");
jsval_t this_val = js_getthis(js);
jsval_t dv_data_val = js_get_slot(js, this_val, SLOT_DATA);
if (js_type(dv_data_val) != JS_NUM) {
return js_mkerr(js, "Not a DataView");
}
DataViewData *dv = (DataViewData *)(uintptr_t)js_getnum(dv_data_val);
size_t offset = (size_t)js_getnum(args[0]);
bool little_endian = (nargs > 1 && js_truthy(js, args[1]));
if (offset + 4 > dv->byte_length) {
return js_mkerr(js, "Offset out of bounds");
}
uint8_t *ptr = dv->buffer->data + dv->byte_offset + offset;
int32_t value;
if (little_endian) {
value = (int32_t)(ptr[0] | (ptr[1] << 8) | (ptr[2] << 16) | (ptr[3] << 24));
} else {
value = (int32_t)((ptr[0] << 24) | (ptr[1] << 16) | (ptr[2] << 8) | ptr[3]);
}
return js_mknum((double)value);
}
// DataView.prototype.getFloat32(byteOffset, littleEndian)
static jsval_t js_dataview_getFloat32(struct js *js, jsval_t *args, int nargs) {
if (nargs < 1) return js_mkerr(js, "getFloat32 requires byteOffset");
jsval_t this_val = js_getthis(js);
jsval_t dv_data_val = js_get_slot(js, this_val, SLOT_DATA);
if (js_type(dv_data_val) != JS_NUM) {
return js_mkerr(js, "Not a DataView");
}
DataViewData *dv = (DataViewData *)(uintptr_t)js_getnum(dv_data_val);
size_t offset = (size_t)js_getnum(args[0]);
bool little_endian = (nargs > 1 && js_truthy(js, args[1]));
if (offset + 4 > dv->byte_length) {
return js_mkerr(js, "Offset out of bounds");
}
uint8_t *ptr = dv->buffer->data + dv->byte_offset + offset;
uint32_t bits;
if (little_endian) {
bits = ptr[0] | (ptr[1] << 8) | (ptr[2] << 16) | (ptr[3] << 24);
} else {
bits = (ptr[0] << 24) | (ptr[1] << 16) | (ptr[2] << 8) | ptr[3];
}
float value;
memcpy(&value, &bits, 4);
return js_mknum((double)value);
}
// DataView.prototype.setInt16(byteOffset, value, littleEndian)
static jsval_t js_dataview_setInt16(struct js *js, jsval_t *args, int nargs) {
if (nargs < 2) return js_mkerr(js, "setInt16 requires byteOffset and value");
jsval_t this_val = js_getthis(js);
jsval_t dv_data_val = js_get_slot(js, this_val, SLOT_DATA);
if (js_type(dv_data_val) != JS_NUM) {
return js_mkerr(js, "Not a DataView");
}
DataViewData *dv = (DataViewData *)(uintptr_t)js_getnum(dv_data_val);
size_t offset = (size_t)js_getnum(args[0]);
int16_t value = (int16_t)js_to_int32(js_getnum(args[1]));
bool little_endian = (nargs > 2 && js_truthy(js, args[2]));
if (offset + 2 > dv->byte_length) {
return js_mkerr(js, "Offset out of bounds");
}
uint8_t *ptr = dv->buffer->data + dv->byte_offset + offset;
if (little_endian) {
ptr[0] = (uint8_t)(value & 0xFF);
ptr[1] = (uint8_t)((value >> 8) & 0xFF);
} else {
ptr[0] = (uint8_t)((value >> 8) & 0xFF);
ptr[1] = (uint8_t)(value & 0xFF);
}
return js_mkundef();
}
// DataView.prototype.setInt32(byteOffset, value, littleEndian)
static jsval_t js_dataview_setInt32(struct js *js, jsval_t *args, int nargs) {
if (nargs < 2) return js_mkerr(js, "setInt32 requires byteOffset and value");
jsval_t this_val = js_getthis(js);
jsval_t dv_data_val = js_get_slot(js, this_val, SLOT_DATA);
if (js_type(dv_data_val) != JS_NUM) {
return js_mkerr(js, "Not a DataView");
}
DataViewData *dv = (DataViewData *)(uintptr_t)js_getnum(dv_data_val);
size_t offset = (size_t)js_getnum(args[0]);
int32_t value = js_to_int32(js_getnum(args[1]));
bool little_endian = (nargs > 2 && js_truthy(js, args[2]));
if (offset + 4 > dv->byte_length) {
return js_mkerr(js, "Offset out of bounds");
}
uint8_t *ptr = dv->buffer->data + dv->byte_offset + offset;
if (little_endian) {
ptr[0] = (uint8_t)(value & 0xFF);
ptr[1] = (uint8_t)((value >> 8) & 0xFF);
ptr[2] = (uint8_t)((value >> 16) & 0xFF);
ptr[3] = (uint8_t)((value >> 24) & 0xFF);
} else {
ptr[0] = (uint8_t)((value >> 24) & 0xFF);
ptr[1] = (uint8_t)((value >> 16) & 0xFF);
ptr[2] = (uint8_t)((value >> 8) & 0xFF);
ptr[3] = (uint8_t)(value & 0xFF);
}
return js_mkundef();
}
// DataView.prototype.setFloat32(byteOffset, value, littleEndian)
static jsval_t js_dataview_setFloat32(struct js *js, jsval_t *args, int nargs) {
if (nargs < 2) return js_mkerr(js, "setFloat32 requires byteOffset and value");
jsval_t this_val = js_getthis(js);
jsval_t dv_data_val = js_get_slot(js, this_val, SLOT_DATA);
if (js_type(dv_data_val) != JS_NUM) {
return js_mkerr(js, "Not a DataView");
}
DataViewData *dv = (DataViewData *)(uintptr_t)js_getnum(dv_data_val);
size_t offset = (size_t)js_getnum(args[0]);
float value = (float)js_getnum(args[1]);
bool little_endian = (nargs > 2 && js_truthy(js, args[2]));
if (offset + 4 > dv->byte_length) {
return js_mkerr(js, "Offset out of bounds");
}
uint8_t *ptr = dv->buffer->data + dv->byte_offset + offset;
uint32_t bits;
memcpy(&bits, &value, 4);
if (little_endian) {
ptr[0] = (uint8_t)(bits & 0xFF);
ptr[1] = (uint8_t)((bits >> 8) & 0xFF);
ptr[2] = (uint8_t)((bits >> 16) & 0xFF);
ptr[3] = (uint8_t)((bits >> 24) & 0xFF);
} else {
ptr[0] = (uint8_t)((bits >> 24) & 0xFF);
ptr[1] = (uint8_t)((bits >> 16) & 0xFF);
ptr[2] = (uint8_t)((bits >> 8) & 0xFF);
ptr[3] = (uint8_t)(bits & 0xFF);
}
return js_mkundef();
}
// DataView.prototype.getFloat64(byteOffset, littleEndian)
static jsval_t js_dataview_getFloat64(struct js *js, jsval_t *args, int nargs) {
if (nargs < 1) return js_mkerr(js, "getFloat64 requires byteOffset");
jsval_t this_val = js_getthis(js);
jsval_t dv_data_val = js_get_slot(js, this_val, SLOT_DATA);
if (js_type(dv_data_val) != JS_NUM) {
return js_mkerr(js, "Not a DataView");
}
DataViewData *dv = (DataViewData *)(uintptr_t)js_getnum(dv_data_val);
size_t offset = (size_t)js_getnum(args[0]);
bool little_endian = (nargs > 1 && js_truthy(js, args[1]));
if (offset + 8 > dv->byte_length) {
return js_mkerr(js, "Offset out of bounds");
}
uint8_t *ptr = dv->buffer->data + dv->byte_offset + offset;
uint64_t bits;
if (little_endian) {
bits = (uint64_t)ptr[0] | ((uint64_t)ptr[1] << 8) | ((uint64_t)ptr[2] << 16) | ((uint64_t)ptr[3] << 24) |
((uint64_t)ptr[4] << 32) | ((uint64_t)ptr[5] << 40) | ((uint64_t)ptr[6] << 48) | ((uint64_t)ptr[7] << 56);
} else {
bits = ((uint64_t)ptr[0] << 56) | ((uint64_t)ptr[1] << 48) | ((uint64_t)ptr[2] << 40) | ((uint64_t)ptr[3] << 32) |
((uint64_t)ptr[4] << 24) | ((uint64_t)ptr[5] << 16) | ((uint64_t)ptr[6] << 8) | (uint64_t)ptr[7];
}
double value;
memcpy(&value, &bits, 8);
return js_mknum(value);
}
// DataView.prototype.setFloat64(byteOffset, value, littleEndian)
static jsval_t js_dataview_setFloat64(struct js *js, jsval_t *args, int nargs) {
if (nargs < 2) return js_mkerr(js, "setFloat64 requires byteOffset and value");
jsval_t this_val = js_getthis(js);
jsval_t dv_data_val = js_get_slot(js, this_val, SLOT_DATA);
if (js_type(dv_data_val) != JS_NUM) {
return js_mkerr(js, "Not a DataView");
}
DataViewData *dv = (DataViewData *)(uintptr_t)js_getnum(dv_data_val);
size_t offset = (size_t)js_getnum(args[0]);
double value = js_getnum(args[1]);
bool little_endian = (nargs > 2 && js_truthy(js, args[2]));
if (offset + 8 > dv->byte_length) {
return js_mkerr(js, "Offset out of bounds");
}
uint8_t *ptr = dv->buffer->data + dv->byte_offset + offset;
uint64_t bits;
memcpy(&bits, &value, 8);
if (little_endian) {
ptr[0] = (uint8_t)(bits & 0xFF);
ptr[1] = (uint8_t)((bits >> 8) & 0xFF);
ptr[2] = (uint8_t)((bits >> 16) & 0xFF);
ptr[3] = (uint8_t)((bits >> 24) & 0xFF);
ptr[4] = (uint8_t)((bits >> 32) & 0xFF);
ptr[5] = (uint8_t)((bits >> 40) & 0xFF);
ptr[6] = (uint8_t)((bits >> 48) & 0xFF);
ptr[7] = (uint8_t)((bits >> 56) & 0xFF);
} else {
ptr[0] = (uint8_t)((bits >> 56) & 0xFF);
ptr[1] = (uint8_t)((bits >> 48) & 0xFF);
ptr[2] = (uint8_t)((bits >> 40) & 0xFF);
ptr[3] = (uint8_t)((bits >> 32) & 0xFF);
ptr[4] = (uint8_t)((bits >> 24) & 0xFF);
ptr[5] = (uint8_t)((bits >> 16) & 0xFF);
ptr[6] = (uint8_t)((bits >> 8) & 0xFF);
ptr[7] = (uint8_t)(bits & 0xFF);
}
return js_mkundef();
}
static uint8_t *hex_decode(const char *data, size_t len, size_t *out_len) {
if (len % 2 != 0) return NULL;
size_t decoded_len = len / 2;
uint8_t *decoded = malloc(decoded_len);
if (!decoded) return NULL;
for (size_t i = 0; i < decoded_len; i++) {
unsigned int byte;
if (sscanf(data + i * 2, "%2x", &byte) != 1) {
free(decoded); return NULL;
}
decoded[i] = (uint8_t)byte;
}
*out_len = decoded_len;
return decoded;
}
typedef enum {
ENC_UTF8,
ENC_HEX,
ENC_BASE64,
ENC_ASCII,
ENC_LATIN1,
ENC_UCS2,
ENC_UNKNOWN
} BufferEncoding;
static BufferEncoding parse_encoding(const char *enc, size_t len) {
if (len == 3 && strncasecmp(enc, "hex", 3) == 0) return ENC_HEX;
if (len == 5 && strncasecmp(enc, "ascii", 5) == 0) return ENC_ASCII;
if (len == 6 && strncasecmp(enc, "base64", 6) == 0) return ENC_BASE64;
if ((len == 4 && strncasecmp(enc, "utf8", 4) == 0) || (len == 5 && strncasecmp(enc, "utf-8", 5) == 0)) return ENC_UTF8;
if ((len == 6 && strncasecmp(enc, "latin1", 6) == 0) || (len == 6 && strncasecmp(enc, "binary", 6) == 0)) return ENC_LATIN1;
if (
(len == 4 && strncasecmp(enc, "ucs2", 4) == 0) ||
(len == 5 && strncasecmp(enc, "ucs-2", 5) == 0) ||
(len == 7 && strncasecmp(enc, "utf16le", 7) == 0) ||
(len == 8 && strncasecmp(enc, "utf-16le", 8) == 0)
) return ENC_UCS2;
return ENC_UNKNOWN;
}
// Buffer.from(array/string/buffer, encoding)
static jsval_t js_buffer_from(struct js *js, jsval_t *args, int nargs) {
if (nargs < 1) return js_mkerr(js, "Buffer.from requires at least one argument");
if (js_type(args[0]) == JS_STR) {
size_t len;
char *str = js_getstr(js, args[0], &len);
BufferEncoding encoding = ENC_UTF8;
if (nargs >= 2 && js_type(args[1]) == JS_STR) {
size_t enc_len;
char *enc_str = js_getstr(js, args[1], &enc_len);
encoding = parse_encoding(enc_str, enc_len);
if (encoding == ENC_UNKNOWN) encoding = ENC_UTF8;
}
if (encoding == ENC_BASE64) {
size_t decoded_len;
uint8_t *decoded = base64_decode(str, len, &decoded_len);
if (!decoded) return js_mkerr(js, "Failed to decode base64");
ArrayBufferData *buffer = create_array_buffer_data(decoded_len);
if (!buffer) { free(decoded); return js_mkerr(js, "Failed to allocate buffer"); }
memcpy(buffer->data, decoded, decoded_len);
free(decoded);
return create_typed_array(js, TYPED_ARRAY_UINT8, buffer, 0, decoded_len, "Buffer");
} else if (encoding == ENC_HEX) {
size_t decoded_len;
uint8_t *decoded = hex_decode(str, len, &decoded_len);
if (!decoded) return js_mkerr(js, "Failed to decode hex");
ArrayBufferData *buffer = create_array_buffer_data(decoded_len);
if (!buffer) { free(decoded); return js_mkerr(js, "Failed to allocate buffer"); }
memcpy(buffer->data, decoded, decoded_len);
free(decoded);
return create_typed_array(js, TYPED_ARRAY_UINT8, buffer, 0, decoded_len, "Buffer");
} else if (encoding == ENC_UCS2) {
size_t decoded_len = len * 2;
ArrayBufferData *buffer = create_array_buffer_data(decoded_len);
if (!buffer) return js_mkerr(js, "Failed to allocate buffer");
for (size_t i = 0; i < len; i++) {
buffer->data[i * 2] = (uint8_t)str[i];
buffer->data[i * 2 + 1] = 0;
}
return create_typed_array(js, TYPED_ARRAY_UINT8, buffer, 0, decoded_len, "Buffer");
} else {
ArrayBufferData *buffer = create_array_buffer_data(len);
if (!buffer) return js_mkerr(js, "Failed to allocate buffer");
memcpy(buffer->data, str, len);
return create_typed_array(js, TYPED_ARRAY_UINT8, buffer, 0, len, "Buffer");
}
}
jsval_t length_val = js_get(js, args[0], "length");
if (js_type(length_val) == JS_NUM) {
size_t len = (size_t)js_getnum(length_val);
ArrayBufferData *buffer = create_array_buffer_data(len);
if (!buffer) return js_mkerr(js, "Failed to allocate buffer");
for (size_t i = 0; i < len; i++) {
char idx_str[32];
snprintf(idx_str, sizeof(idx_str), "%zu", i);
jsval_t elem = js_get(js, args[0], idx_str);
if (js_type(elem) == JS_NUM) {
buffer->data[i] = (uint8_t)js_getnum(elem);
}
}
return create_typed_array(js, TYPED_ARRAY_UINT8, buffer, 0, len, "Buffer");
}
return js_mkerr(js, "Invalid argument to Buffer.from");
}
// Buffer.alloc(size)
static jsval_t js_buffer_alloc(struct js *js, jsval_t *args, int nargs) {
if (nargs < 1) {
return js_mkerr(js, "Buffer.alloc requires a size argument");
}
size_t size = (size_t)js_getnum(args[0]);
ArrayBufferData *buffer = create_array_buffer_data(size);
if (!buffer) return js_mkerr(js, "Failed to allocate buffer");
memset(buffer->data, 0, size);
return create_typed_array(js, TYPED_ARRAY_UINT8, buffer, 0, size, "Buffer");
}
// Buffer.allocUnsafe(size)
static jsval_t js_buffer_allocUnsafe(struct js *js, jsval_t *args, int nargs) {
if (nargs < 1) {
return js_mkerr(js, "Buffer.allocUnsafe requires a size argument");
}
size_t size = (size_t)js_getnum(args[0]);
ArrayBufferData *buffer = create_array_buffer_data(size);
if (!buffer) return js_mkerr(js, "Failed to allocate buffer");
return create_typed_array(js, TYPED_ARRAY_UINT8, buffer, 0, size, "Buffer");
}
// Buffer.prototype.toString(encoding)
static jsval_t js_buffer_toString(struct js *js, jsval_t *args, int nargs) {
jsval_t this_val = js_getthis(js);
jsval_t ta_data_val = js_get_slot(js, this_val, SLOT_BUFFER);
TypedArrayData *ta_data = (TypedArrayData *)js_gettypedarray(ta_data_val);
if (!ta_data) return js_mkerr(js, "Invalid Buffer");
BufferEncoding encoding = ENC_UTF8;
if (nargs > 0 && js_type(args[0]) == JS_STR) {
size_t enc_len;
char *enc_str = js_getstr(js, args[0], &enc_len);
encoding = parse_encoding(enc_str, enc_len);
if (encoding == ENC_UNKNOWN) encoding = ENC_UTF8;
}
uint8_t *data = ta_data->buffer->data + ta_data->byte_offset;
size_t len = ta_data->byte_length;
if (encoding == ENC_BASE64) {
size_t out_len;
char *encoded = base64_encode(data, len, &out_len);
if (!encoded) return js_mkerr(js, "Failed to encode base64");
jsval_t result = js_mkstr(js, encoded, out_len);
free(encoded);
return result;
} else if (encoding == ENC_HEX) {
char *hex = malloc(len * 2 + 1);
if (!hex) return js_mkerr(js, "Failed to allocate hex string");
for (size_t i = 0; i < len; i++) {
snprintf(hex + i * 2, 3, "%02x", data[i]);
}
jsval_t result = js_mkstr(js, hex, len * 2);
free(hex);
return result;
} else if (encoding == ENC_UCS2) {
size_t char_count = len / 2;
char *str = malloc(char_count + 1);
if (!str) return js_mkerr(js, "Failed to allocate string");
for (size_t i = 0; i < char_count; i++) str[i] = (char)data[i * 2];
str[char_count] = '\0';
jsval_t result = js_mkstr(js, str, char_count);
free(str);
return result;
} else return js_mkstr(js, (char *)data, len);
}
// Buffer.prototype.toBase64()
static jsval_t js_buffer_toBase64(struct js *js, jsval_t *args, int nargs) {
(void)args; (void)nargs;
jsval_t encoding_arg = js_mkstr(js, "base64", 6);
jsval_t new_args[1] = {encoding_arg};
return js_buffer_toString(js, new_args, 1);
}
// Buffer.prototype.write(string, offset, length, encoding)
static jsval_t js_buffer_write(struct js *js, jsval_t *args, int nargs) {
if (nargs < 1) return js_mkerr(js, "write requires a string");
jsval_t this_val = js_getthis(js);
jsval_t ta_data_val = js_get_slot(js, this_val, SLOT_BUFFER);
TypedArrayData *ta_data = (TypedArrayData *)js_gettypedarray(ta_data_val);
if (!ta_data) return js_mkerr(js, "Invalid Buffer");
size_t str_len;
char *str = js_getstr(js, args[0], &str_len);
size_t offset = 0;
size_t length = ta_data->byte_length;
if (nargs > 1 && js_type(args[1]) == JS_NUM) {
offset = (size_t)js_getnum(args[1]);
}
if (nargs > 2 && js_type(args[2]) == JS_NUM) {
length = (size_t)js_getnum(args[2]);
}
if (offset >= ta_data->byte_length) {
return js_mknum(0);
}
size_t available = ta_data->byte_length - offset;
size_t to_write = (str_len < length) ? str_len : length;
to_write = (to_write < available) ? to_write : available;
memcpy(ta_data->buffer->data + ta_data->byte_offset + offset, str, to_write);
return js_mknum((double)to_write);
}
// Buffer.isBuffer(obj)
static jsval_t js_buffer_isBuffer(struct js *js, jsval_t *args, int nargs) {
if (nargs < 1) return js_mkfalse();
if (js_type(args[0]) != JS_OBJ) return js_mkfalse();
jsval_t proto = js_get_proto(js, args[0]);
jsval_t buffer_proto = js_get_ctor_proto(js, "Buffer", 6);
return (proto == buffer_proto) ? js_mktrue() : js_mkfalse();
}
// Buffer.isEncoding(encoding)
static jsval_t js_buffer_isEncoding(struct js *js, jsval_t *args, int nargs) {
if (nargs < 1 || js_type(args[0]) != JS_STR) return js_mkfalse();
size_t len;
char *enc = js_getstr(js, args[0], &len);
if ((len == 4 && strncasecmp(enc, "utf8", 4) == 0) ||
(len == 5 && strncasecmp(enc, "utf-8", 5) == 0) ||
(len == 3 && strncasecmp(enc, "hex", 3) == 0) ||
(len == 6 && strncasecmp(enc, "base64", 6) == 0) ||
(len == 5 && strncasecmp(enc, "ascii", 5) == 0) ||
(len == 6 && strncasecmp(enc, "latin1", 6) == 0) ||
(len == 6 && strncasecmp(enc, "binary", 6) == 0) ||
(len == 4 && strncasecmp(enc, "ucs2", 4) == 0) ||
(len == 5 && strncasecmp(enc, "ucs-2", 5) == 0) ||
(len == 7 && strncasecmp(enc, "utf16le", 7) == 0) ||
(len == 8 && strncasecmp(enc, "utf-16le", 8) == 0)) {
return js_mktrue();
}
return js_mkfalse();
}
// Buffer.byteLength(string, encoding)
static jsval_t js_buffer_byteLength(struct js *js, jsval_t *args, int nargs) {
if (nargs < 1) return js_mknum(0);
jsval_t arg = args[0];
if (js_type(arg) == JS_OBJ) {
jsval_t bytelen = js_get(js, arg, "byteLength");
if (js_type(bytelen) == JS_NUM) return bytelen;
jsval_t len = js_get(js, arg, "length");
if (js_type(len) == JS_NUM) return len;
}
if (js_type(arg) == JS_STR) {
size_t len;
js_getstr(js, arg, &len);
return js_mknum((double)len);
}
return js_mknum(0);
}
// Buffer.concat(list, totalLength)
static jsval_t js_buffer_concat(struct js *js, jsval_t *args, int nargs) {
if (nargs < 1 || js_type(args[0]) != JS_OBJ) {
return js_mkerr(js, "First argument must be an array");
}
jsval_t list = args[0];
jsval_t len_val = js_get(js, list, "length");
if (js_type(len_val) != JS_NUM) {
return js_mkerr(js, "First argument must be an array");
}
size_t list_len = (size_t)js_getnum(len_val);
size_t total_length = 0;
if (nargs > 1 && js_type(args[1]) == JS_NUM) {
total_length = (size_t)js_getnum(args[1]);
} else {
for (size_t i = 0; i < list_len; i++) {
char idx[16];
snprintf(idx, sizeof(idx), "%zu", i);
jsval_t buf = js_get(js, list, idx);
jsval_t buf_len = js_get(js, buf, "length");
if (js_type(buf_len) == JS_NUM) total_length += (size_t)js_getnum(buf_len);
}
}
ArrayBufferData *buffer = create_array_buffer_data(total_length);
if (!buffer) return js_mkerr(js, "Failed to allocate buffer");
size_t offset = 0;
for (size_t i = 0; i < list_len && offset < total_length; i++) {
char idx[16];
snprintf(idx, sizeof(idx), "%zu", i);
jsval_t buf = js_get(js, list, idx);
jsval_t ta_data_val = js_get_slot(js, buf, SLOT_BUFFER);
TypedArrayData *ta = js_gettypedarray(ta_data_val);
if (!ta || !ta->buffer) continue;
size_t copy_len = ta->byte_length;
if (offset + copy_len > total_length) {
copy_len = total_length - offset;
}
memcpy(buffer->data + offset, ta->buffer->data + ta->byte_offset, copy_len);
offset += copy_len;
}
return create_typed_array(js, TYPED_ARRAY_UINT8, buffer, 0, total_length, "Buffer");
}
// Buffer.compare(buf1, buf2)
static jsval_t js_buffer_compare(struct js *js, jsval_t *args, int nargs) {
if (nargs < 2) return js_mkerr(js, "Buffer.compare requires two arguments");
jsval_t ta1_val = js_get_slot(js, args[0], SLOT_BUFFER);
jsval_t ta2_val = js_get_slot(js, args[1], SLOT_BUFFER);
TypedArrayData *ta1 = js_gettypedarray(ta1_val);
TypedArrayData *ta2 = js_gettypedarray(ta2_val);
if (!ta1 || !ta2) {
return js_mkerr(js, "Arguments must be Buffers");
}
if (!ta1 || !ta1->buffer || !ta2 || !ta2->buffer) {
return js_mkerr(js, "Invalid buffer");
}
size_t len = ta1->byte_length < ta2->byte_length ? ta1->byte_length : ta2->byte_length;
int cmp = memcmp(ta1->buffer->data + ta1->byte_offset, ta2->buffer->data + ta2->byte_offset, len);
if (cmp == 0) {
if (ta1->byte_length < ta2->byte_length) cmp = -1;
else if (ta1->byte_length > ta2->byte_length) cmp = 1;
} else cmp = cmp < 0 ? -1 : 1;
return js_mknum((double)cmp);
}
static jsval_t js_sharedarraybuffer_constructor(struct js *js, jsval_t *args, int nargs) {
size_t length = 0;
if (nargs > 0 && js_type(args[0]) == JS_NUM) {
length = (size_t)js_getnum(args[0]);
}
ArrayBufferData *data = create_shared_array_buffer_data(length);
if (!data) {
return js_mkerr(js, "Failed to allocate SharedArrayBuffer");
}
jsval_t obj = js_mkobj(js);
jsval_t proto = js_get_ctor_proto(js, "SharedArrayBuffer", 17);
if (js_type(proto) == JS_OBJ) js_set_proto(js, obj, proto);
js_set_slot(js, obj, SLOT_BUFFER, ANT_PTR(data));
js_set(js, obj, "byteLength", js_mknum(length));
return obj;
}
void init_buffer_module() {
struct js *js = rt->js;
jsval_t glob = js_glob(js);
jsval_t arraybuffer_ctor_obj = js_mkobj(js);
jsval_t arraybuffer_proto = js_mkobj(js);
js_set(js, arraybuffer_proto, "slice", js_mkfun(js_arraybuffer_slice));
js_set(js, arraybuffer_proto, get_toStringTag_sym_key(), js_mkstr(js, "ArrayBuffer", 11));
js_set_slot(js, arraybuffer_ctor_obj, SLOT_CFUNC, js_mkfun(js_arraybuffer_constructor));
js_mkprop_fast(js, arraybuffer_ctor_obj, "prototype", 9, arraybuffer_proto);
js_mkprop_fast(js, arraybuffer_ctor_obj, "name", 4, ANT_STRING("ArrayBuffer"));
js_set_descriptor(js, arraybuffer_ctor_obj, "name", 4, 0);
js_set(js, glob, "ArrayBuffer", js_obj_to_func(arraybuffer_ctor_obj));
jsval_t typedarray_proto = js_mkobj(js);
js_set(js, typedarray_proto, "slice", js_mkfun(js_typedarray_slice));
js_set(js, typedarray_proto, "subarray", js_mkfun(js_typedarray_subarray));
js_set(js, typedarray_proto, "fill", js_mkfun(js_typedarray_fill));
js_set(js, typedarray_proto, "toReversed", js_mkfun(js_typedarray_toReversed));
js_set(js, typedarray_proto, "toSorted", js_mkfun(js_typedarray_toSorted));
js_set(js, typedarray_proto, "with", js_mkfun(js_typedarray_with));
js_set(js, typedarray_proto, get_toStringTag_sym_key(), js_mkstr(js, "TypedArray", 10));
#define SETUP_TYPEDARRAY(name) \
do { \
jsval_t name##_ctor_obj = js_mkobj(js); \
jsval_t name##_proto = js_mkobj(js); \
js_set_proto(js, name##_proto, typedarray_proto); \
js_set_slot(js, name##_ctor_obj, SLOT_CFUNC, js_mkfun(js_##name##_constructor)); \
js_setprop(js, name##_ctor_obj, js_mkstr(js, "prototype", 9), name##_proto); \
js_set(js, glob, #name, js_obj_to_func(name##_ctor_obj)); \
} while(0)
SETUP_TYPEDARRAY(Int8Array);
SETUP_TYPEDARRAY(Uint8Array);
SETUP_TYPEDARRAY(Uint8ClampedArray);
SETUP_TYPEDARRAY(Int16Array);
SETUP_TYPEDARRAY(Uint16Array);
SETUP_TYPEDARRAY(Int32Array);
SETUP_TYPEDARRAY(Uint32Array);
SETUP_TYPEDARRAY(Float32Array);
SETUP_TYPEDARRAY(Float64Array);
SETUP_TYPEDARRAY(BigInt64Array);
SETUP_TYPEDARRAY(BigUint64Array);
jsval_t dataview_ctor_obj = js_mkobj(js);
jsval_t dataview_proto = js_mkobj(js);
js_set(js, dataview_proto, "getUint8", js_mkfun(js_dataview_getUint8));
js_set(js, dataview_proto, "setUint8", js_mkfun(js_dataview_setUint8));
js_set(js, dataview_proto, "getInt16", js_mkfun(js_dataview_getInt16));
js_set(js, dataview_proto, "setInt16", js_mkfun(js_dataview_setInt16));
js_set(js, dataview_proto, "getInt32", js_mkfun(js_dataview_getInt32));
js_set(js, dataview_proto, "setInt32", js_mkfun(js_dataview_setInt32));
js_set(js, dataview_proto, "getFloat32", js_mkfun(js_dataview_getFloat32));
js_set(js, dataview_proto, "setFloat32", js_mkfun(js_dataview_setFloat32));
js_set(js, dataview_proto, "getFloat64", js_mkfun(js_dataview_getFloat64));
js_set(js, dataview_proto, "setFloat64", js_mkfun(js_dataview_setFloat64));
js_set(js, dataview_proto, get_toStringTag_sym_key(), js_mkstr(js, "DataView", 8));
js_set_slot(js, dataview_ctor_obj, SLOT_CFUNC, js_mkfun(js_dataview_constructor));
js_mkprop_fast(js, dataview_ctor_obj, "prototype", 9, dataview_proto);
js_mkprop_fast(js, dataview_ctor_obj, "name", 4, ANT_STRING("DataView"));
js_set_descriptor(js, dataview_ctor_obj, "name", 4, 0);
js_set(js, glob, "DataView", js_obj_to_func(dataview_ctor_obj));
jsval_t sharedarraybuffer_ctor_obj = js_mkobj(js);
jsval_t sharedarraybuffer_proto = js_mkobj(js);
js_set(js, sharedarraybuffer_proto, "slice", js_mkfun(js_arraybuffer_slice));
js_set(js, sharedarraybuffer_proto, get_toStringTag_sym_key(), js_mkstr(js, "SharedArrayBuffer", 17));
js_set_slot(js, sharedarraybuffer_ctor_obj, SLOT_CFUNC, js_mkfun(js_sharedarraybuffer_constructor));
js_mkprop_fast(js, sharedarraybuffer_ctor_obj, "prototype", 9, sharedarraybuffer_proto);
js_mkprop_fast(js, sharedarraybuffer_ctor_obj, "name", 4, ANT_STRING("SharedArrayBuffer"));
js_set_descriptor(js, sharedarraybuffer_ctor_obj, "name", 4, 0);
js_set(js, glob, "SharedArrayBuffer", js_obj_to_func(sharedarraybuffer_ctor_obj));
jsval_t buffer_ctor_obj = js_mkobj(js);
jsval_t buffer_proto = js_mkobj(js);
js_set(js, buffer_proto, "toString", js_mkfun(js_buffer_toString));
js_set(js, buffer_proto, "toBase64", js_mkfun(js_buffer_toBase64));
js_set(js, buffer_proto, "write", js_mkfun(js_buffer_write));
js_set(js, buffer_proto, get_toStringTag_sym_key(), js_mkstr(js, "Buffer", 6));
js_set(js, buffer_ctor_obj, "from", js_mkfun(js_buffer_from));
js_set(js, buffer_ctor_obj, "alloc", js_mkfun(js_buffer_alloc));
js_set(js, buffer_ctor_obj, "allocUnsafe", js_mkfun(js_buffer_allocUnsafe));
js_set(js, buffer_ctor_obj, "isBuffer", js_mkfun(js_buffer_isBuffer));
js_set(js, buffer_ctor_obj, "isEncoding", js_mkfun(js_buffer_isEncoding));
js_set(js, buffer_ctor_obj, "byteLength", js_mkfun(js_buffer_byteLength));
js_set(js, buffer_ctor_obj, "concat", js_mkfun(js_buffer_concat));
js_set(js, buffer_ctor_obj, "compare", js_mkfun(js_buffer_compare));
js_set_slot(js, buffer_ctor_obj, SLOT_CFUNC, js_mkfun(js_buffer_from));
js_mkprop_fast(js, buffer_ctor_obj, "prototype", 9, buffer_proto);
js_mkprop_fast(js, buffer_ctor_obj, "name", 4, ANT_STRING("Buffer"));
js_set_descriptor(js, buffer_ctor_obj, "name", 4, 0);
js_set(js, glob, "Buffer", js_obj_to_func(buffer_ctor_obj));
}

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