334 lines
11 KiB
C++
334 lines
11 KiB
C++
/*
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* Mr. 4th Dimention - Allen Webster
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*
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* 16.06.2019
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*
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* Routines for string matching within chunked streams.
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*
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*/
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// TOP
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internal u64_Array
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string_compute_prefix_table(Arena *arena, String_Const_u8 string, Scan_Direction direction){
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u64_Array array = {};
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array.count = (i32)(string.size);
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array.vals = push_array(arena, u64, array.count);
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u8 *str = string.str;
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if (direction == Scan_Backward){
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str = string.str + string.size - 1;
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}
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array.vals[0] = 0;
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for (u64 i = 1; i < string.size; i += 1){
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u64 previous_longest_prefix = array.vals[i - 1];
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for (;;){
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u8 *a = str + previous_longest_prefix;
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u8 *b = str + i;
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if (direction == Scan_Backward){
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a = str - previous_longest_prefix;
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b = str - i;
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}
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if (character_to_upper(*a) == character_to_upper(*b)){
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array.vals[i] = previous_longest_prefix + 1;
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break;
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}
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if (previous_longest_prefix == 0){
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array.vals[i] = 0;
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break;
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}
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previous_longest_prefix = array.vals[previous_longest_prefix - 1];
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}
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}
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return(array);
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}
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internal u64_Array
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string_compute_needle_jump_table(Arena *arena, u64_Array longest_prefixes){
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u64_Array array = {};
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array.count = longest_prefixes.count + 1;
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array.vals = push_array(arena, u64, array.count);
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array.vals[0] = 0;
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for (u64 i = 1; i < array.count; i += 1){
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array.vals[i] = i - longest_prefixes.vals[i - 1];
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}
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return(array);
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}
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internal u64_Array
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string_compute_needle_jump_table(Arena *arena, String_Const_u8 needle, Scan_Direction direction){
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u64_Array prefix_table = string_compute_prefix_table(arena, needle, direction);
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return(string_compute_needle_jump_table(arena, prefix_table));
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}
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#define character_predicate_check_character(p, c) (((p).b[(c)/8] & (1 << ((c)%8))) != 0)
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internal String_Match_List
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find_all_matches_forward(Arena *arena, i32 maximum_output_count,
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List_String_Const_u8 chunks, String_Const_u8 needle,
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u64_Array jump_table, Character_Predicate *predicate,
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u64 base_index, Buffer_ID buffer, i32 string_id){
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String_Match_List list = {};
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if (chunks.node_count > 0){
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u64 i = 0;
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u64 j = 0;
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b8 current_l = false;
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i64 last_insensitive = -1;
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i64 last_boundary = -1;
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Node_String_Const_u8 *node = chunks.first;
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i64 chunk_pos = 0;
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i32 jump_back_code = 0;
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u8 c = 0;
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u64 n = 0;
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u8 needle_c = 0;
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u64 jump = 0;
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if (false){
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iterate_forward:
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i += 1;
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chunk_pos += 1;
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if (chunk_pos >= (i64)node->string.size){
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last_boundary = i;
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chunk_pos = 0;
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node = node->next;
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}
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switch (jump_back_code){
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case 0:
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{
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goto jump_back_0;
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}break;
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case 1:
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{
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goto jump_back_1;
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}break;
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}
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}
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for (;node != 0;){
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c = node->string.str[chunk_pos];
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n = i - j;
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needle_c = needle.str[n];
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if (character_to_upper(c) == character_to_upper(needle_c)){
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if (c != needle_c){
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last_insensitive = i;
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}
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jump_back_code = 0;
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goto iterate_forward;
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jump_back_0:
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if (n + 1 == needle.size){
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String_Match_Flag flags = {};
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if (!(last_insensitive >= 0 &&
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j <= (u64)last_insensitive &&
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(u64)last_insensitive < j + needle.size)){
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AddFlag(flags, StringMatch_CaseSensitive);
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}
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if (!(last_boundary >= 0 &&
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j <= (u64)last_boundary &&
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(u64)last_boundary < j + needle.size)){
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AddFlag(flags, StringMatch_Straddled);
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}
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if (node != 0){
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u8 next_c = node->string.str[chunk_pos];
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if (character_predicate_check_character(*predicate, next_c)){
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AddFlag(flags, StringMatch_RightSideSloppy);
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}
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}
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if (current_l){
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AddFlag(flags, StringMatch_LeftSideSloppy);
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}
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string_match_list_push(arena, &list, buffer, string_id, flags,
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base_index + j, needle.size);
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if (list.count >= maximum_output_count){
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break;
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}
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u64 jump = jump_table.vals[n + 1];
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current_l = character_predicate_check_character(*predicate, needle.str[jump - 1]);
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j += jump;
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}
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}
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else{
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jump = jump_table.vals[n];
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if (jump == 0){
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current_l = character_predicate_check_character(*predicate, c);
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jump_back_code = 1;
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goto iterate_forward;
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jump_back_1:
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j += 1;
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}
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else{
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u8 prev_c = needle.str[jump - 1];
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current_l = character_predicate_check_character(*predicate, prev_c);
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j += jump;
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}
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}
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}
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}
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return(list);
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}
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internal String_Match_List
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find_all_matches_backward(Arena *arena, i32 maximum_output_count,
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List_String_Const_u8 chunks, String_Const_u8 needle,
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u64_Array jump_table, Character_Predicate *predicate,
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u64 base_index, Buffer_ID buffer, i32 string_id){
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String_Match_List list = {};
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string_list_reverse(&chunks);
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if (chunks.node_count > 0){
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i64 size = (i64)chunks.total_size;
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i64 i = size - 1;
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i64 j = size - 1;
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b8 current_r = false;
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i64 last_insensitive = size;
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i64 last_boundary = size;
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Node_String_Const_u8 *node = chunks.first;
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i64 chunk_pos = node->string.size - 1;
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i32 jump_back_code = 0;
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u8 c = 0;
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u64 n = 0;
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u8 needle_c = 0;
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u64 jump = 0;
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if (false){
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iterate_backward:
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i -= 1;
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chunk_pos -= 1;
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if (chunk_pos < 0){
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last_boundary = i;
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node = node->next;
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if (node != 0){
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chunk_pos = node->string.size - 1;
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}
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}
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switch (jump_back_code){
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case 0:
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{
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goto jump_back_0;
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}break;
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case 1:
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{
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goto jump_back_1;
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}break;
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}
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}
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for (;node != 0;){
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c = node->string.str[chunk_pos];
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n = j - i;
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needle_c = needle.str[needle.size - 1 - n];
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if (character_to_upper(c) == character_to_upper(needle_c)){
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if (c != needle_c){
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last_insensitive = i;
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}
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jump_back_code = 0;
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goto iterate_backward;
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jump_back_0:
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if (n + 1 == needle.size){
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String_Match_Flag flags = {};
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if (!(last_insensitive < size &&
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j >= last_insensitive &&
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last_insensitive > j - (i64)needle.size)){
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AddFlag(flags, StringMatch_CaseSensitive);
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}
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if (!(last_boundary < size &&
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j >= last_boundary &&
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last_boundary > j - (i64)needle.size)){
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AddFlag(flags, StringMatch_Straddled);
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}
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if (node != 0){
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u8 next_c = node->string.str[chunk_pos];
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if (character_predicate_check_character(*predicate, next_c)){
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AddFlag(flags, StringMatch_LeftSideSloppy);
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}
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}
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if (current_r){
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AddFlag(flags, StringMatch_RightSideSloppy);
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}
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string_match_list_push(arena, &list, buffer, string_id, flags,
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base_index + (j - (needle.size - 1)), needle.size);
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if (list.count >= maximum_output_count){
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break;
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}
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u64 jump = jump_table.vals[n + 1];
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u64 m = needle.size - jump;
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u8 needle_m = needle.str[m];
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current_r = character_predicate_check_character(*predicate, needle_m);
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j -= jump;
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}
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}
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else{
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jump = jump_table.vals[n];
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if (jump == 0){
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current_r = character_predicate_check_character(*predicate, c);
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jump_back_code = 1;
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goto iterate_backward;
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jump_back_1:
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j -= 1;
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}
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else{
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u64 m = needle.size - jump;
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u8 needle_m = needle.str[m];
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current_r = character_predicate_check_character(*predicate, needle_m);
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j -= jump;
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}
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}
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}
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}
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string_list_reverse(&chunks);
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return(list);
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}
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internal String_Match_List
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find_all_matches(Arena *arena, i32 maximum_output_count,
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List_String_Const_u8 chunks, String_Const_u8 needle,
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u64_Array jump_table, Character_Predicate *predicate,
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Scan_Direction direction,
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u64 base_index, Buffer_ID buffer, i32 string_id){
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String_Match_List list = {};
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switch (direction){
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case Scan_Forward:
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{
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list = find_all_matches_forward(arena, maximum_output_count,
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chunks, needle, jump_table, predicate,
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base_index, buffer, string_id);
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}break;
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case Scan_Backward:
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{
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list = find_all_matches_backward(arena, maximum_output_count,
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chunks, needle, jump_table, predicate,
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base_index, buffer, string_id);
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}break;
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}
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return(list);
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}
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// BOTTOM
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