优化内存分配函数的调用方法
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85e0d52783
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@ -64,9 +64,6 @@ typedef struct __allocator_iterator_t
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{
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{
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allocator_t *allocator;
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allocator_t *allocator;
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struct __allocator_iterator_t *left, *right;
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struct __allocator_iterator_t *left, *right;
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// 这个节点的内存空间处于的那个分配器
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allocator_t *owned_allocator;
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} allocator_iterator_t;
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} allocator_iterator_t;
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/*
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/*
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@ -137,13 +134,19 @@ pid=0时为内核分配
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所有内存在内核空间都有对物理内存空间的直接映射,也就是线性地址与物理地址相同,称为内核地址
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所有内存在内核空间都有对物理内存空间的直接映射,也就是线性地址与物理地址相同,称为内核地址
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allocator对象在进程与内核之间传递时一律使用内核空间的映射地址
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allocator对象在进程与内核之间传递时一律使用内核空间的映射地址
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## 要求在返回的地址前16字节处保留8字节空间作为它所在的allocator地址,并且不需要分配器的具体实现做这个事
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*/
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*/
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void *memm_allocate(usize size, usize pid, allocator_t **allocator);
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void *memm_allocate(usize size, usize pid);
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#define memm_addr_set_allocator(mem, allocator) \
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*(allocator_t **)(mem - 16) = allocator;
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#define memm_addr_get_allocator(mem) \
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((*(allocator_t **)(mem - 16)))
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/*
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/*
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释放内存
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释放内存
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*/
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*/
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void memm_free(allocator_t *allocator, void *mem);
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void memm_free(void *mem);
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/*
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/*
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寻找大小合适的一组页
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寻找大小合适的一组页
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@ -2,13 +2,16 @@
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#define RAW_H 1
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#define RAW_H 1
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#include <types.h>
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#include <types.h>
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#include <kernel/memm.h>
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#define MEMM_RAW_ALLOCATOR 1
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#define MEMM_RAW_ALLOCATOR 1
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typedef struct __raw_allocator_cell
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typedef struct __raw_allocator_cell
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{
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{
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usize capacity; // 是content的长度
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usize capacity; // 是content的长度
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usize length; // 是实际使用的长度
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usize length; // 是实际使用的长度
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allocator_t *allocator; // 所在的分配器
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usize reserved;
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u8 content[0];
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u8 content[0];
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} raw_allocator_cell;
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} raw_allocator_cell;
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#define raw_allocator_next_cell(cell) (raw_allocator_cell *)((void *)((cell)->content) + (cell)->capacity)
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#define raw_allocator_next_cell(cell) (raw_allocator_cell *)((void *)((cell)->content) + (cell)->capacity)
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@ -59,8 +59,6 @@ typedef struct __tty
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tty_typeinfo typeinfo;
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tty_typeinfo typeinfo;
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tty_mode mode;
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tty_mode mode;
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tty_text_state text;
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tty_text_state text;
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allocator_t *allocator;
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} tty;
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} tty;
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// tty控制器
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// tty控制器
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@ -16,10 +16,6 @@ typedef struct __lst_line_t
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typedef struct __lst_iterator_t
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typedef struct __lst_iterator_t
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{
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{
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lst_line_t line;
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lst_line_t line;
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// 这个指针是kernel/memm.h中的allocator_t *
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// 代表当前lst_line_index_t对象在allocate时使用的allocator
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// 用的话会造成递归include
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void *allocator;
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struct __lst_iterator_t *next;
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struct __lst_iterator_t *next;
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} lst_iterator_t;
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} lst_iterator_t;
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@ -29,7 +29,6 @@ mem_manager_t *memm_new(usize mem_size)
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alcatr_ind->allocator = allocator0;
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alcatr_ind->allocator = allocator0;
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alcatr_ind->left = nullptr;
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alcatr_ind->left = nullptr;
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alcatr_ind->right = nullptr;
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alcatr_ind->right = nullptr;
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alcatr_ind->owned_allocator = allocator0;
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memory_manager.allocators = alcatr_ind;
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memory_manager.allocators = alcatr_ind;
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@ -159,11 +158,12 @@ static void insert_allocator(allocator_iterator_t *iter, allocator_iterator_t *i
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}
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}
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}
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}
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void *memm_allocate(usize size, usize pid, allocator_t **allocator)
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void *memm_allocate(usize size, usize pid)
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{
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{
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usize orgsize = size;
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usize orgsize = size;
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// 从分配器树中分配内存
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// 从分配器树中分配内存
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void *ptr = memm_find_and_allocate(memory_manager.allocators, size, pid, allocator);
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allocator_t *allocator;
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void *ptr = memm_find_and_allocate(memory_manager.allocators, size, pid, &allocator);
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if (ptr != nullptr)
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if (ptr != nullptr)
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goto after_allocation;
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goto after_allocation;
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@ -190,11 +190,9 @@ void *memm_allocate(usize size, usize pid, allocator_t **allocator)
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allocator_t *new_allocator =
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allocator_t *new_allocator =
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memm_allocator_new((void *)(allocator_start * MEMM_PAGE_SIZE), size * MEMM_PAGE_SIZE,
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memm_allocator_new((void *)(allocator_start * MEMM_PAGE_SIZE), size * MEMM_PAGE_SIZE,
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MEMM_RAW_ALLOCATOR, pid);
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MEMM_RAW_ALLOCATOR, pid);
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*allocator = new_allocator;
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allocator = new_allocator;
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allocator_t *all;
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allocator_iterator_t *allind = memm_allocate(sizeof(allocator_iterator_t), 0);
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allocator_iterator_t *allind = memm_allocate(sizeof(allocator_iterator_t), 0, &all);
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allind->owned_allocator = all;
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allind->allocator = new_allocator;
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allind->allocator = new_allocator;
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allind->left = nullptr;
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allind->left = nullptr;
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allind->right = nullptr;
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allind->right = nullptr;
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@ -202,6 +200,7 @@ void *memm_allocate(usize size, usize pid, allocator_t **allocator)
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ptr = new_allocator->allocate(&new_allocator->allocator_instance, orgsize, 0);
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ptr = new_allocator->allocate(&new_allocator->allocator_instance, orgsize, 0);
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after_allocation:
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after_allocation:
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memm_addr_set_allocator(ptr, allocator);
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if (pid != 0)
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if (pid != 0)
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{ // TODO 进程管理中应该有一个用户地址-内核地址映射表
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{ // TODO 进程管理中应该有一个用户地址-内核地址映射表
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// 在进程分配时将页映射到用户空间中,并将这个映射关系记录进这个表中
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// 在进程分配时将页映射到用户空间中,并将这个映射关系记录进这个表中
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@ -210,8 +209,9 @@ after_allocation:
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return ptr;
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return ptr;
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}
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}
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void memm_free(allocator_t *allocator, void *mem)
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void memm_free(void *mem)
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{
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{
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allocator_t *allocator = memm_addr_get_allocator(mem);
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if (is_user_address((u64)mem))
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if (is_user_address((u64)mem))
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{ // TODO 对于用户空间的地址需要先转换到内核地址后释放
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{ // TODO 对于用户空间的地址需要先转换到内核地址后释放
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}
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}
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@ -16,12 +16,10 @@ tty_controller_t *tty_controller_new()
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tty *tty_new(tty_type type, tty_mode mode)
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tty *tty_new(tty_type type, tty_mode mode)
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{
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{
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allocator_t *allocator;
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tty *__tty = memm_allocate(sizeof(tty), 0);
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tty *__tty = memm_allocate(sizeof(tty), 0, &allocator);
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memset(__tty, 0, sizeof(tty));
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memset(__tty, 0, sizeof(tty));
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__tty->type = type;
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__tty->type = type;
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__tty->mode = mode;
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__tty->mode = mode;
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__tty->allocator = allocator;
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tty *res = nullptr;
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tty *res = nullptr;
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for (usize i = 0; i < TTY_MAX_NUM; ++i)
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for (usize i = 0; i < TTY_MAX_NUM; ++i)
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{
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{
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@ -7,11 +7,9 @@
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lst_iterator_t *lst_new(usize start, usize end)
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lst_iterator_t *lst_new(usize start, usize end)
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{
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{
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allocator_t *allocator;
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lst_iterator_t *lst = memm_allocate(sizeof(lst_iterator_t), 0);
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lst_iterator_t *lst = memm_allocate(sizeof(lst_iterator_t), 0, &allocator);
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lst->line.left = start;
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lst->line.left = start;
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lst->line.right = end;
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lst->line.right = end;
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lst->allocator = allocator;
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lst->next = nullptr;
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lst->next = nullptr;
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return lst;
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return lst;
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}
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}
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@ -130,9 +128,7 @@ bool lst_add(lst_iterator_t *lst, usize left, usize right, bool force)
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lst->line.left = left;
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lst->line.left = left;
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else
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else
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{
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{
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allocator_t *alloctr;
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lst_iterator_t *new_node = memm_allocate(sizeof(lst_iterator_t), 0);
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lst_iterator_t *new_node = memm_allocate(sizeof(lst_iterator_t), 0, &alloctr);
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new_node->allocator = alloctr;
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new_node->line = line;
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new_node->line = line;
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new_node->next = lst;
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new_node->next = lst;
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if (last != nullptr)
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if (last != nullptr)
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@ -169,7 +165,7 @@ bool lst_add(lst_iterator_t *lst, usize left, usize right, bool force)
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}
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}
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tmplast = *tmpnode;
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tmplast = *tmpnode;
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lst_iterator_t *t = lst_next(tmpnode);
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lst_iterator_t *t = lst_next(tmpnode);
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memm_free(tmpnode->allocator, tmpnode);
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memm_free(tmpnode);
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tmpnode = t;
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tmpnode = t;
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}
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}
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lst->line.right = max(tmplast.line.right, right);
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lst->line.right = max(tmplast.line.right, right);
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