305 lines
11 KiB
C
305 lines
11 KiB
C
/*
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* This file is part of the MicroPython project, http://micropython.org/
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*
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* The MIT License (MIT)
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*
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* SPDX-FileCopyrightText: Copyright (c) 2013, 2014 Damien P. George
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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 deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* 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 FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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* THE SOFTWARE.
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*/
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#include <assert.h>
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#include <string.h>
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#include <stdio.h>
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#include "py/gc.h"
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#include "py/mpstate.h"
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#include "py/qstr.h"
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#include "py/gc.h"
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#include "supervisor/linker.h"
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// NOTE: we are using linear arrays to store and search for qstr's (unique strings, interned strings)
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// ultimately we will replace this with a static hash table of some kind
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#if MICROPY_DEBUG_VERBOSE // print debugging info
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#define DEBUG_printf DEBUG_printf
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#else // don't print debugging info
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#define DEBUG_printf(...) (void)0
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#endif
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// A qstr is an index into the qstr pool.
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// The data for a qstr is \0 terminated (so they can be printed using printf)
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#define Q_HASH_MASK ((1 << (8 * MICROPY_QSTR_BYTES_IN_HASH)) - 1)
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#if MICROPY_PY_THREAD && !MICROPY_PY_THREAD_GIL
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#define QSTR_ENTER() mp_thread_mutex_lock(&MP_STATE_VM(qstr_mutex), 1)
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#define QSTR_EXIT() mp_thread_mutex_unlock(&MP_STATE_VM(qstr_mutex))
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#else
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#define QSTR_ENTER()
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#define QSTR_EXIT()
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#endif
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// this must match the equivalent function in makeqstrdata.py
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mp_uint_t qstr_compute_hash(const byte *data, size_t len) {
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// djb2 algorithm; see http://www.cse.yorku.ca/~oz/hash.html
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mp_uint_t hash = 5381;
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for (const byte *top = data + len; data < top; data++) {
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hash = ((hash << 5) + hash) ^ (*data); // hash * 33 ^ data
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}
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hash &= Q_HASH_MASK;
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// Make sure that valid hash is never zero, zero means "hash not computed"
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if (hash == 0) {
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hash++;
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}
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return hash;
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}
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const qstr_attr_t mp_qstr_const_attr[] = {
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#ifndef NO_QSTR
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#define QDEF(id, hash, len, str) { hash, len },
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#define TRANSLATION(id, length, compressed ...)
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#include "genhdr/qstrdefs.generated.h"
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#undef TRANSLATION
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#undef QDEF
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#endif
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};
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const qstr_pool_t mp_qstr_const_pool = {
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NULL, // no previous pool
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0, // no previous pool
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10, // set so that the first dynamically allocated pool is twice this size; must be <= the len (just below)
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MP_QSTRnumber_of, // corresponds to number of strings in array just below
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(qstr_attr_t *)mp_qstr_const_attr,
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{
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#ifndef NO_QSTR
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#define QDEF(id, hash, len, str) str,
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#define TRANSLATION(id, length, compressed ...)
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#include "genhdr/qstrdefs.generated.h"
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#undef TRANSLATION
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#undef QDEF
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#endif
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},
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};
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#ifdef MICROPY_QSTR_EXTRA_POOL
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extern const qstr_pool_t MICROPY_QSTR_EXTRA_POOL;
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#define CONST_POOL MICROPY_QSTR_EXTRA_POOL
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#else
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#define CONST_POOL mp_qstr_const_pool
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#endif
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void qstr_init(void) {
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MP_STATE_VM(last_pool) = (qstr_pool_t *)&CONST_POOL; // we won't modify the const_pool since it has no allocated room left
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MP_STATE_VM(qstr_last_chunk) = NULL;
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#if MICROPY_PY_THREAD
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mp_thread_mutex_init(&MP_STATE_VM(qstr_mutex));
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#endif
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}
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STATIC const char *find_qstr(qstr q, qstr_attr_t *attr) {
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// search pool for this qstr
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// total_prev_len==0 in the final pool, so the loop will always terminate
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qstr_pool_t *pool = MP_STATE_VM(last_pool);
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while (q < pool->total_prev_len) {
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pool = pool->prev;
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}
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q -= pool->total_prev_len;
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assert(q < pool->len);
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*attr = pool->attrs[q];
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return pool->qstrs[q];
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}
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// qstr_mutex must be taken while in this function
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STATIC qstr qstr_add(mp_uint_t hash, mp_uint_t len, const char *q_ptr) {
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DEBUG_printf("QSTR: add hash=%d len=%d data=%.*s\n", hash, len, len, q_ptr);
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// make sure we have room in the pool for a new qstr
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if (MP_STATE_VM(last_pool)->len >= MP_STATE_VM(last_pool)->alloc) {
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uint32_t new_pool_length = MP_STATE_VM(last_pool)->alloc * 2;
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if (new_pool_length > MICROPY_QSTR_POOL_MAX_ENTRIES) {
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new_pool_length = MICROPY_QSTR_POOL_MAX_ENTRIES;
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}
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mp_uint_t pool_size = sizeof(qstr_pool_t) + sizeof(const char *) * new_pool_length;
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void *chunk = m_malloc_maybe(pool_size + sizeof(qstr_attr_t) * new_pool_length, true);
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if (chunk == NULL) {
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QSTR_EXIT();
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m_malloc_fail(new_pool_length);
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}
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qstr_pool_t *pool = (qstr_pool_t *)chunk;
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pool->attrs = (qstr_attr_t *)(void *)((char *)chunk + pool_size);
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pool->prev = MP_STATE_VM(last_pool);
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pool->total_prev_len = MP_STATE_VM(last_pool)->total_prev_len + MP_STATE_VM(last_pool)->len;
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pool->alloc = new_pool_length;
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pool->len = 0;
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MP_STATE_VM(last_pool) = pool;
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DEBUG_printf("QSTR: allocate new pool of size %d\n", MP_STATE_VM(last_pool)->alloc);
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}
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// add the new qstr
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mp_uint_t at = MP_STATE_VM(last_pool)->len;
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MP_STATE_VM(last_pool)->attrs[at].hash = hash;
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MP_STATE_VM(last_pool)->attrs[at].len = len;
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MP_STATE_VM(last_pool)->qstrs[at] = q_ptr;
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MP_STATE_VM(last_pool)->len++;
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// return id for the newly-added qstr
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return MP_STATE_VM(last_pool)->total_prev_len + at;
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}
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qstr qstr_find_strn(const char *str, size_t str_len) {
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// work out hash of str
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mp_uint_t str_hash = qstr_compute_hash((const byte *)str, str_len);
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// search pools for the data
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for (qstr_pool_t *pool = MP_STATE_VM(last_pool); pool != NULL; pool = pool->prev) {
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qstr_attr_t *attrs = pool->attrs;
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for (mp_uint_t at = 0, top = pool->len; at < top; at++) {
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if (attrs[at].hash == str_hash && attrs[at].len == str_len && memcmp(pool->qstrs[at], str, str_len) == 0) {
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return pool->total_prev_len + at;
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}
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}
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}
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// not found; return null qstr
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return 0;
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}
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qstr qstr_from_str(const char *str) {
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return qstr_from_strn(str, strlen(str));
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}
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qstr qstr_from_strn(const char *str, size_t len) {
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assert(len < (1 << (8 * MICROPY_QSTR_BYTES_IN_LEN)));
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QSTR_ENTER();
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qstr q = qstr_find_strn(str, len);
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if (q == 0) {
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// qstr does not exist in interned pool so need to add it
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// compute number of bytes needed to intern this string
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size_t n_bytes = len + 1;
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if (MP_STATE_VM(qstr_last_chunk) != NULL && MP_STATE_VM(qstr_last_used) + n_bytes > MP_STATE_VM(qstr_last_alloc)) {
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// not enough room at end of previously interned string so try to grow
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char *new_p = m_renew_maybe(char, MP_STATE_VM(qstr_last_chunk), MP_STATE_VM(qstr_last_alloc), MP_STATE_VM(qstr_last_alloc) + n_bytes, false);
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if (new_p == NULL) {
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// could not grow existing memory; shrink it to fit previous
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(void)m_renew_maybe(char, MP_STATE_VM(qstr_last_chunk), MP_STATE_VM(qstr_last_alloc), MP_STATE_VM(qstr_last_used), false);
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MP_STATE_VM(qstr_last_chunk) = NULL;
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} else {
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// could grow existing memory
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MP_STATE_VM(qstr_last_alloc) += n_bytes;
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}
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}
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if (MP_STATE_VM(qstr_last_chunk) == NULL) {
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// no existing memory for the interned string so allocate a new chunk
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size_t al = n_bytes;
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if (al < MICROPY_ALLOC_QSTR_CHUNK_INIT) {
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al = MICROPY_ALLOC_QSTR_CHUNK_INIT;
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}
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MP_STATE_VM(qstr_last_chunk) = m_new_ll_maybe(char, al);
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if (MP_STATE_VM(qstr_last_chunk) == NULL) {
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// failed to allocate a large chunk so try with exact size
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MP_STATE_VM(qstr_last_chunk) = m_new_ll_maybe(char, n_bytes);
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if (MP_STATE_VM(qstr_last_chunk) == NULL) {
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QSTR_EXIT();
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m_malloc_fail(n_bytes);
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}
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al = n_bytes;
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}
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MP_STATE_VM(qstr_last_alloc) = al;
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MP_STATE_VM(qstr_last_used) = 0;
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}
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// allocate memory from the chunk for this new interned string's data
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char *q_ptr = MP_STATE_VM(qstr_last_chunk) + MP_STATE_VM(qstr_last_used);
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MP_STATE_VM(qstr_last_used) += n_bytes;
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// store the interned strings' data
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mp_uint_t hash = qstr_compute_hash((const byte *)str, len);
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memcpy(q_ptr, str, len);
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q_ptr[len] = '\0';
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q = qstr_add(hash, len, q_ptr);
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}
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QSTR_EXIT();
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return q;
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}
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mp_uint_t PLACE_IN_ITCM(qstr_hash)(qstr q) {
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qstr_attr_t attr;
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find_qstr(q, &attr);
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return attr.hash;
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}
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size_t qstr_len(qstr q) {
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qstr_attr_t attr;
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find_qstr(q, &attr);
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return attr.len;
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}
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const char *qstr_str(qstr q) {
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qstr_attr_t attr;
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return find_qstr(q, &attr);
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}
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const byte *qstr_data(qstr q, size_t *len) {
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qstr_attr_t attr;
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const char *qd = find_qstr(q, &attr);
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*len = attr.len;
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return (byte *)qd;
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}
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void qstr_pool_info(size_t *n_pool, size_t *n_qstr, size_t *n_str_data_bytes, size_t *n_total_bytes) {
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QSTR_ENTER();
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*n_pool = 0;
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*n_qstr = 0;
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*n_str_data_bytes = 0;
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*n_total_bytes = 0;
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for (qstr_pool_t *pool = MP_STATE_VM(last_pool); pool != NULL && pool != &CONST_POOL; pool = pool->prev) {
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*n_pool += 1;
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*n_qstr += pool->len;
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for (const qstr_attr_t *q = pool->attrs, *q_top = pool->attrs + pool->len; q < q_top; q++) {
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*n_str_data_bytes += sizeof(*q) + q->len + 1;
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}
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#if MICROPY_ENABLE_GC
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// this counts actual bytes used in heap
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*n_total_bytes += gc_nbytes(pool) - sizeof(qstr_attr_t) * pool->alloc;
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#else
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*n_total_bytes += sizeof(qstr_pool_t) + sizeof(const char *) * pool->alloc;
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#endif
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}
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*n_total_bytes += *n_str_data_bytes;
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QSTR_EXIT();
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}
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#if MICROPY_PY_MICROPYTHON_MEM_INFO
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void qstr_dump_data(void) {
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QSTR_ENTER();
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for (qstr_pool_t *pool = MP_STATE_VM(last_pool); pool != NULL && pool != &CONST_POOL; pool = pool->prev) {
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for (const char **q = pool->qstrs, **q_top = pool->qstrs + pool->len; q < q_top; q++) {
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mp_printf(&mp_plat_print, "Q(%s)\n", *q);
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}
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}
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QSTR_EXIT();
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}
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#endif
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