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0cc73ca2a9
* Malloc branch entries * Add ASM comment for stack overflow check * WIP * Fix branch GC code. Add rb_darray_remove_unordered(). * Fix block end_pos after branch rewriting. Remove dst_patched bits.
193 lines
6 KiB
C
193 lines
6 KiB
C
#ifndef RUBY_DARRAY_H
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#define RUBY_DARRAY_H
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#include <stdint.h>
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#include <stddef.h>
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#include <stdlib.h>
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// Type for a dynamic array. Use to declare a dynamic array.
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// It is a pointer so it fits in st_table nicely. Designed
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// to be fairly type-safe.
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//
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// NULL is a valid empty dynamic array.
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//
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// Example:
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// rb_darray(char) char_array = NULL;
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// if (!rb_darray_append(&char_array, 'e')) abort();
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// printf("pushed %c\n", *rb_darray_ref(char_array, 0));
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// rb_darray_free(char_array);
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//
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#define rb_darray(T) struct { rb_darray_meta_t meta; T data[]; } *
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// Copy an element out of the array. Warning: not bounds checked.
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//
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// T rb_darray_get(rb_darray(T) ary, int32_t idx);
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//
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#define rb_darray_get(ary, idx) ((ary)->data[(idx)])
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// Assign to an element. Warning: not bounds checked.
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//
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// void rb_darray_set(rb_darray(T) ary, int32_t idx, T element);
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//
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#define rb_darray_set(ary, idx, element) ((ary)->data[(idx)] = (element))
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// Get a pointer to an element. Warning: not bounds checked.
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//
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// T *rb_darray_ref(rb_darray(T) ary, int32_t idx);
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//
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#define rb_darray_ref(ary, idx) (&((ary)->data[(idx)]))
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// Copy a new element into the array. Return 1 on success and 0 on failure.
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// ptr_to_ary is evaluated multiple times.
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//
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// bool rb_darray_append(rb_darray(T) *ptr_to_ary, T element);
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//
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#define rb_darray_append(ptr_to_ary, element) ( \
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rb_darray_ensure_space((ptr_to_ary), sizeof(**(ptr_to_ary)), sizeof((*(ptr_to_ary))->data[0])) ? ( \
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rb_darray_set(*(ptr_to_ary), \
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(*(ptr_to_ary))->meta.size, \
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(element)), \
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++((*(ptr_to_ary))->meta.size), \
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1 \
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) : 0)
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// Last element of the array
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//
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#define rb_darray_back(ary) ((ary)->data[(ary)->meta.size - 1])
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// Remove the last element of the array.
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//
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#define rb_darray_pop_back(ary) ((ary)->meta.size--)
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// Remove element at idx and replace it by the last element
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#define rb_darray_remove_unordered(ary, idx) do { \
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rb_darray_set(ary, idx, rb_darray_back(ary)); \
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rb_darray_pop_back(ary); \
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} while (0);
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// Iterate over items of the array in a for loop
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//
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#define rb_darray_foreach(ary, idx_name, elem_ptr_var) \
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for (int idx_name = 0; idx_name < rb_darray_size(ary) && ((elem_ptr_var) = rb_darray_ref(ary, idx_name)); ++idx_name)
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// Iterate over valid indicies in the array in a for loop
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//
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#define rb_darray_for(ary, idx_name) \
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for (int idx_name = 0; idx_name < rb_darray_size(ary); ++idx_name)
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// Make a dynamic array of a certain size. All bytes backing the elements are set to zero.
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// Return 1 on success and 0 on failure.
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//
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// Note that NULL is a valid empty dynamic array.
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//
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// bool rb_darray_make(rb_darray(T) *ptr_to_ary, int32_t size);
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//
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#define rb_darray_make(ptr_to_ary, size) rb_darray_make_impl((ptr_to_ary), size, sizeof(**(ptr_to_ary)), sizeof((*(ptr_to_ary))->data[0]))
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typedef struct rb_darray_meta {
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int32_t size;
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int32_t capa;
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} rb_darray_meta_t;
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// Get the size of the dynamic array.
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//
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static inline int32_t
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rb_darray_size(const void *ary)
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{
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const rb_darray_meta_t *meta = ary;
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return meta ? meta->size : 0;
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}
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// Get the capacity of the dynamic array.
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//
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static inline int32_t
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rb_darray_capa(const void *ary)
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{
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const rb_darray_meta_t *meta = ary;
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return meta ? meta->capa : 0;
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}
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// Free the dynamic array.
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//
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static inline void
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rb_darray_free(void *ary)
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{
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free(ary);
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}
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// Internal function. Calculate buffer size on malloc heap.
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static inline size_t
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rb_darray_buffer_size(int32_t capacity, size_t header_size, size_t element_size)
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{
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if (capacity == 0) return 0;
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return header_size + (size_t)capacity * element_size;
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}
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// Internal function
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// Ensure there is space for one more element. Return 1 on success and 0 on failure.
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// Note: header_size can be bigger than sizeof(rb_darray_meta_t) when T is __int128_t, for example.
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static inline int
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rb_darray_ensure_space(void *ptr_to_ary, size_t header_size, size_t element_size)
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{
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rb_darray_meta_t **ptr_to_ptr_to_meta = ptr_to_ary;
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rb_darray_meta_t *meta = *ptr_to_ptr_to_meta;
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int32_t current_capa = rb_darray_capa(meta);
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if (rb_darray_size(meta) < current_capa) return 1;
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int32_t new_capa;
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// Calculate new capacity
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if (current_capa == 0) {
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new_capa = 1;
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}
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else {
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int64_t doubled = 2 * (int64_t)current_capa;
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new_capa = (int32_t)doubled;
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if (new_capa != doubled) return 0;
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}
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// Calculate new buffer size
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size_t current_buffer_size = rb_darray_buffer_size(current_capa, header_size, element_size);
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size_t new_buffer_size = rb_darray_buffer_size(new_capa, header_size, element_size);
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if (new_buffer_size <= current_buffer_size) return 0;
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rb_darray_meta_t *doubled_ary = realloc(meta, new_buffer_size);
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if (!doubled_ary) return 0;
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if (meta == NULL) {
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// First allocation. Initialize size. On subsequence allocations
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// realloc takes care of carrying over the size.
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doubled_ary->size = 0;
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}
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doubled_ary->capa = new_capa;
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// We don't have access to the type of the dynamic array in function context.
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// Write out result with memcpy to avoid strict aliasing issue.
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memcpy(ptr_to_ary, &doubled_ary, sizeof(doubled_ary));
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return 1;
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}
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static inline int
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rb_darray_make_impl(void *ptr_to_ary, int32_t array_size, size_t header_size, size_t element_size)
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{
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rb_darray_meta_t **ptr_to_ptr_to_meta = ptr_to_ary;
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if (array_size < 0) return 0;
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if (array_size == 0) {
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*ptr_to_ptr_to_meta = NULL;
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return 1;
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}
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size_t buffer_size = rb_darray_buffer_size(array_size, header_size, element_size);
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rb_darray_meta_t *meta = calloc(buffer_size, 1);
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if (!meta) return 0;
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meta->size = array_size;
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meta->capa = array_size;
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// We don't have access to the type of the dynamic array in function context.
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// Write out result with memcpy to avoid strict aliasing issue.
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memcpy(ptr_to_ary, &meta, sizeof(meta));
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return 1;
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}
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#endif /* RUBY_DARRAY_H */
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