4coder/4ed_working_set.cpp

562 lines
20 KiB
C++

/*
* Mr. 4th Dimention - Allen Webster
*
* 03.01.2017
*
* Working_Set data structure
*
*/
// TOP
internal void
working_set_extend_memory(Working_Set *working_set, Editing_File *new_space, i16 number_of_files){
Assert(working_set->array_count < working_set->array_max);
i16 high_part = working_set->array_count++;
working_set->file_arrays[high_part].files = new_space;
working_set->file_arrays[high_part].size = number_of_files;
working_set->file_max += number_of_files;
Buffer_Slot_ID id = {};
id.part[1] = high_part;
Editing_File *file_ptr = new_space;
Node *free_sentinel = &working_set->free_sentinel;
for (i16 i = 0; i < number_of_files; ++i, ++file_ptr){
id.part[0] = i;
file_ptr->id = id;
dll_insert(free_sentinel, &file_ptr->main_chain_node);
}
}
internal void
working_set_file_default_settings(Working_Set *working_set, Editing_File *file){
memset(&file->settings, 0, sizeof(file->settings));
file->settings.display_width = working_set->default_display_width;
file->settings.minimum_base_display_width = working_set->default_minimum_base_display_width;
file->settings.wrap_indicator = WrapIndicator_Show_At_Wrap_Edge;
}
// TODO(allen): do(restructure so that editing file is returned cleared to zero)
internal Editing_File*
working_set_alloc_always(Working_Set *working_set, Heap *heap, Lifetime_Allocator *lifetime_allocator){
Editing_File *result = 0;
if (working_set->file_count == working_set->file_max && working_set->array_count < working_set->array_max){
i16 new_count = (i16)clamp_top(working_set->file_max, max_i16);
Editing_File *new_chunk = heap_array(heap, Editing_File, new_count);
working_set_extend_memory(working_set, new_chunk, new_count);
}
if (working_set->file_count < working_set->file_max){
Node *node = working_set->free_sentinel.next;
Assert(node != &working_set->free_sentinel);
result = CastFromMember(Editing_File, main_chain_node, node);
++working_set->file_count;
dll_remove(node);
dll_insert(&working_set->used_sentinel, node);
Node node_val = result->main_chain_node;
Buffer_Slot_ID id_val = result->id;
memset(result, 0, sizeof(*result));
result->main_chain_node = node_val;
result->id = id_val;
working_set_file_default_settings(working_set, result);
}
return(result);
}
internal void
working_set_free_file(Heap *heap, Working_Set *working_set, Editing_File *file){
if (working_set->sync_check_iter == &file->main_chain_node){
working_set->sync_check_iter = working_set->sync_check_iter->next;
}
file->is_dummy = true;
dll_remove(&file->main_chain_node);
dll_insert(&working_set->free_sentinel, &file->main_chain_node);
--working_set->file_count;
}
internal Editing_File*
working_set_index(Working_Set *working_set, Buffer_Slot_ID id){
Editing_File *result = 0;
File_Array *array = 0;
if (id.part[1] >= 0 && id.part[1] < working_set->array_count){
array = working_set->file_arrays + id.part[1];
if (id.part[0] >= 0 && id.part[0] < array->size){
result = array->files + id.part[0];
}
}
return(result);
}
internal Editing_File*
working_set_index(Working_Set *working_set, i32 id){
return(working_set_index(working_set, to_file_id(id)));
}
internal Editing_File*
working_set_get_active_file(Working_Set *working_set, Buffer_Slot_ID id){
Editing_File *result = working_set_index(working_set, id);
if (result != 0 && result->is_dummy){
result = 0;
}
return(result);
}
internal Editing_File*
working_set_get_active_file(Working_Set *working_set, Buffer_ID id){
return(working_set_get_active_file(working_set, to_file_id(id)));
}
// TODO(allen): REWRITE all of working set
internal void
working_set_init(System_Functions *system, Working_Set *working_set, Arena *arena){
i16 init_count = 16;
i16 array_init_count = 256;
dll_init_sentinel(&working_set->free_sentinel);
dll_init_sentinel(&working_set->used_sentinel);
working_set->edit_finished_list_first = 0;
working_set->edit_finished_list_last = 0;
working_set->edit_finished_count = 0;
working_set->time_of_next_edit_finished_signal = 0;
working_set->edit_finished_timer = system->wake_up_timer_create();
working_set->do_not_mark_edits = false;
working_set->array_max = array_init_count;
working_set->file_arrays = push_array(arena, File_Array, array_init_count);
Editing_File *files = push_array(arena, Editing_File, init_count);
working_set_extend_memory(working_set, files, init_count);
// TODO(NAME): do(clean up the rest of the null_file)
// Unclear that this is still needed. But double check that the buffer id 0 does not start getting used by the next real buffer when this
// is removed before actually removing it. Buffer id cannot be allowed to be zero on real buffers.
#if 1
// NOTE(allen): init null file
{
Editing_File *null_file = working_set_index(working_set, 0);
dll_remove(&null_file->main_chain_node);
null_file->is_dummy = true;
++working_set->file_count;
}
#endif
working_set->canon_table = make_table_Data_u64(arena->base_allocator, 128);
working_set->name_table = make_table_Data_u64(arena->base_allocator, 128);
}
internal Editing_File*
working_set_contains__generic(Working_Set *working_set, Table_Data_u64 *table, String_Const_u8 name){
Editing_File *result = 0;
u64 val = 0;
if (table_read(table, make_data(name.str, name.size), &val)){
result = working_set_index(working_set, to_file_id((Buffer_ID)val));
}
return(result);
}
internal b32
working_set_add__generic(Table_Data_u64 *table, Buffer_ID id, String_Const_u8 name){
return(table_insert(table, make_data(name.str, name.size), id));
}
internal void
working_set_remove__generic(Table_Data_u64 *table, String_Const_u8 name){
table_erase(table, make_data(name.str, name.size));
}
internal Editing_File*
working_set_contains_canon(Working_Set *working_set, String_Const_u8 name){
return(working_set_contains__generic(working_set, &working_set->canon_table, name));
}
internal b32
working_set_canon_add(Working_Set *working_set, Editing_File *file, String_Const_u8 name){
return(working_set_add__generic(&working_set->canon_table, file->id.id, name));
}
internal void
working_set_canon_remove(Working_Set *working_set, String_Const_u8 name){
working_set_remove__generic(&working_set->canon_table, name);
}
internal Editing_File*
working_set_contains_name(Working_Set *working_set, String_Const_u8 name){
return(working_set_contains__generic(working_set, &working_set->name_table, name));
}
internal b32
working_set_add_name(Heap *heap, Working_Set *working_set, Editing_File *file, String_Const_u8 name){
return(working_set_add__generic(&working_set->name_table, file->id.id, name));
}
internal void
working_set_remove_name(Working_Set *working_set, String_Const_u8 name){
working_set_remove__generic(&working_set->name_table, name);
}
internal Editing_File*
get_file_from_identifier(System_Functions *system, Working_Set *working_set, Buffer_Identifier buffer){
Editing_File *file = 0;
if (buffer.id != 0){
file = working_set_get_active_file(working_set, buffer.id);
}
else if (buffer.name != 0){
String_Const_u8 name = SCu8(buffer.name, buffer.name_len);
file = working_set_contains_name(working_set, name);
}
return(file);
}
////////////////////////////////
// TODO(allen): Bring the clipboard fully to the custom side.
internal String_Const_u8*
working_set_next_clipboard_string(Heap *heap, Working_Set *working, umem str_size){
i32 clipboard_current = working->clipboard_current;
if (working->clipboard_size == 0){
clipboard_current = 0;
working->clipboard_size = 1;
}
else{
++clipboard_current;
if (clipboard_current >= working->clipboard_max_size){
clipboard_current = 0;
}
else if (working->clipboard_size <= clipboard_current){
working->clipboard_size = clipboard_current + 1;
}
}
String_Const_u8 *result = &working->clipboards[clipboard_current];
working->clipboard_current = clipboard_current;
working->clipboard_rolling = clipboard_current;
if (result->str != 0){
heap_free(heap, result->str);
}
u8 *new_str = (u8*)heap_allocate(heap, (i32)(str_size + 1));
*result = SCu8(new_str, str_size);
return(result);
}
internal String_Const_u8*
working_set_clipboard_index(Working_Set *working, i32 index){
String_Const_u8 *result = 0;
i32 size = working->clipboard_size;
i32 current = working->clipboard_current;
if (index >= 0 && size > 0){
index = index % size;
index = current + size - index;
index = index % size;
result = &working->clipboards[index];
}
return(result);
}
internal String_Const_u8*
working_set_clipboard_head(Working_Set *working){
String_Const_u8 *result = 0;
if (working->clipboard_size > 0){
working->clipboard_rolling = 0;
result = working_set_clipboard_index(working, working->clipboard_rolling);
}
return(result);
}
internal String_Const_u8*
working_set_clipboard_roll_down(Working_Set *working){
String_Const_u8 *result = 0;
if (working->clipboard_size > 0){
i32 clipboard_index = working->clipboard_rolling;
++clipboard_index;
working->clipboard_rolling = clipboard_index;
result = working_set_clipboard_index(working, working->clipboard_rolling);
}
return(result);
}
////////////////////////////////
internal b32
get_canon_name(System_Functions *system, String_Const_u8 file_name, Editing_File_Name *canon_name){
canon_name->name_size = system->get_canonical((char*)file_name.str, (u32)file_name.size,
(char*)canon_name->name_space, sizeof(canon_name->name_space));
file_name_terminate(canon_name);
return(canon_name->name_size > 0);
}
internal void
file_bind_file_name(System_Functions *system, Heap *heap, Working_Set *working_set, Editing_File *file, String_Const_u8 canon_file_name){
Assert(file->unique_name.name_size == 0);
Assert(file->canon.name_size == 0);
umem size = canon_file_name.size;
size = clamp_top(size, sizeof(file->canon.name_space) - 1);
file->canon.name_size = size;
block_copy(file->canon.name_space, canon_file_name.str, size);
file_name_terminate(&file->canon);
system->add_listener((char*)file->canon.name_space);
b32 result = working_set_canon_add(working_set, file, string_from_file_name(&file->canon));
Assert(result);
}
internal void
buffer_unbind_file(System_Functions *system, Working_Set *working_set, Editing_File *file){
Assert(file->unique_name.name_size == 0);
Assert(file->canon.name_size != 0);
system->remove_listener((char*)file->canon.name_space);
working_set_canon_remove(working_set, string_from_file_name(&file->canon));
file->canon.name_size = 0;
}
internal b32
buffer_name_has_conflict(Working_Set *working_set, String_Const_u8 base_name){
b32 hit_conflict = false;
Node *used_nodes = &working_set->used_sentinel;
for (Node *node = used_nodes->next; node != used_nodes; node = node->next){
Editing_File *file_ptr = CastFromMember(Editing_File, main_chain_node, node);
if (file_is_ready(file_ptr) && string_match(base_name, string_from_file_name(&file_ptr->unique_name))){
hit_conflict = true;
break;
}
}
return(hit_conflict);
}
internal void
buffer_resolve_name_low_level(Arena *scratch, Working_Set *working_set, Editing_File_Name *name, String_Const_u8 base_name){
umem size = base_name.size;
size = clamp_top(size, sizeof(name->name_space));
block_copy(name->name_space, base_name.str, size);
String_u8 string = Su8(name->name_space, size, sizeof(name->name_space));
umem original_size = string.size;
u64 file_x = 0;
for (b32 hit_conflict = true; hit_conflict;){
hit_conflict = buffer_name_has_conflict(working_set, string.string);
if (hit_conflict){
file_x += 1;
string.size = original_size;
Temp_Memory temp = begin_temp(scratch);
String_Const_u8 int_str = string_from_integer(scratch, file_x, 10);
string_append(&string, string_u8_litexpr(" ("));
string_append(&string, int_str);
string_append(&string, string_u8_litexpr(")"));
end_temp(temp);
}
}
name->name_size = string.size;
}
internal void
buffer_bind_name_low_level(Arena *scratch, Heap *heap, Working_Set *working_set, Editing_File *file, String_Const_u8 base_name, String_Const_u8 name){
Assert(file->base_name.name_size == 0);
Assert(file->unique_name.name_size == 0);
Editing_File_Name new_name = {};
buffer_resolve_name_low_level(scratch, working_set, &new_name, name);
{
umem size = base_name.size;
size = clamp_top(size, sizeof(file->base_name.name_space));
block_copy(file->base_name.name_space, base_name.str, size);
file->base_name.name_size = size;
}
{
umem size = new_name.name_size;
block_copy(file->unique_name.name_space, new_name.name_space, size);
file->unique_name.name_size = size;
}
b32 result = working_set_add_name(heap, working_set, file, string_from_file_name(&file->unique_name));
Assert(result);
}
internal void
buffer_unbind_name_low_level(Working_Set *working_set, Editing_File *file){
Assert(file->base_name.name_size != 0);
Assert(file->unique_name.name_size != 0);
working_set_remove_name(working_set, string_from_file_name(&file->unique_name));
file->base_name.name_size = 0;
file->unique_name.name_size = 0;
}
internal void
buffer_bind_name(Models *models, Heap *heap, Arena *scratch, Working_Set *working_set, Editing_File *file, String_Const_u8 base_name){
Temp_Memory temp = begin_temp(scratch);
// List of conflict files.
struct Node_Ptr{
Node_Ptr *next;
Editing_File *file_ptr;
};
Node_Ptr *conflict_first = 0;
Node_Ptr *conflict_last = 0;
i32 conflict_count = 0;
{
Node_Ptr *node = push_array(scratch, Node_Ptr, 1);
sll_queue_push(conflict_first, conflict_last, node);
node->file_ptr = file;
conflict_count += 1;
}
Node *used_nodes = &working_set->used_sentinel;
for (Node *node = used_nodes->next;
node != used_nodes;
node = node->next){
Editing_File *file_ptr = CastFromMember(Editing_File, main_chain_node, node);
if (file_is_ready(file_ptr) && string_match(base_name, string_from_file_name(&file_ptr->base_name))){
Node_Ptr *new_node = push_array(scratch, Node_Ptr, 1);
sll_queue_push(conflict_first, conflict_last, new_node);
new_node->file_ptr = file_ptr;
conflict_count += 1;
}
}
// Fill conflict array.
Buffer_Name_Conflict_Entry *conflicts = push_array(scratch, Buffer_Name_Conflict_Entry, conflict_count);
{
i32 i = 0;
for (Node_Ptr *node = conflict_first;
node != 0;
node = node->next, i += 1){
Editing_File *file_ptr = node->file_ptr;
Buffer_Name_Conflict_Entry *entry = &conflicts[i];
entry->buffer_id = file_ptr->id.id;
entry->file_name = push_string_copy(scratch, string_from_file_name(&file_ptr->canon));
entry->base_name = push_string_copy(scratch, base_name);
String_Const_u8 b = base_name;
if (i > 0){
b = string_from_file_name(&file_ptr->unique_name);
}
umem unique_name_capacity = 256;
u8 *unique_name_buffer = push_array(scratch, u8, unique_name_capacity);
Assert(b.size <= unique_name_capacity);
block_copy(unique_name_buffer, b.str, b.size);
entry->unique_name_in_out = unique_name_buffer;
entry->unique_name_len_in_out = b.size;
entry->unique_name_capacity = unique_name_capacity;
}
}
// Get user's resolution data.
if (models->buffer_name_resolver != 0){
models->buffer_name_resolver(&models->app_links, conflicts, conflict_count);
}
// Re-bind all of the files
{
i32 i = 0;
for (Node_Ptr *node = conflict_first;
node != 0;
node = node->next, i += 1){
Editing_File *file_ptr = node->file_ptr;
if (file_ptr->unique_name.name_size > 0){
buffer_unbind_name_low_level(working_set, file_ptr);
}
}
}
{
i32 i = 0;
for (Node_Ptr *node = conflict_first;
node != 0;
node = node->next, i += 1){
Editing_File *file_ptr = node->file_ptr;
Buffer_Name_Conflict_Entry *entry = &conflicts[i];
String_Const_u8 unique_name = SCu8(entry->unique_name_in_out, entry->unique_name_len_in_out);
buffer_bind_name_low_level(scratch, heap, working_set, file_ptr, base_name, unique_name);
}
}
end_temp(temp);
}
////////////////////////////////
internal void
file_touch(Working_Set *working_set, Editing_File *file){
Assert(file != 0);
Assert(!file->is_dummy);
dll_remove(&file->main_chain_node);
dll_insert(&working_set->used_sentinel, &file->main_chain_node);
}
internal Editing_File*
file_get_next(Working_Set *working_set, Editing_File *file){
if (file != 0){
file = CastFromMember(Editing_File, main_chain_node, file->main_chain_node.next);
if (file == CastFromMember(Editing_File, main_chain_node, &working_set->used_sentinel)){
file = 0;
}
}
else{
if (working_set->file_count > 0){
Node *node = working_set->used_sentinel.next;
file = CastFromMember(Editing_File, main_chain_node, node);
}
}
return(file);
}
internal void
file_mark_edit_finished(Working_Set *working_set, Editing_File *file){
// TODO(allen): do(propogate do_not_mark_edits down the edit pipeline to here)
// This current method only works for synchronous calls, asynchronous calls will get the
// wrong do_not_mark_edits value.
if (!working_set->do_not_mark_edits){
if (!file->edit_finished_marked == 0){
zdll_push_back(working_set->edit_finished_list_first,
working_set->edit_finished_list_last,
&file->edit_finished_mark_node);
file->edit_finished_marked = true;
working_set->edit_finished_count += 1;
}
}
}
internal b32
file_unmark_edit_finished(Working_Set *working_set, Editing_File *file){
b32 result = false;
if (!working_set->do_not_mark_edits){
if (file->edit_finished_marked){
zdll_remove(working_set->edit_finished_list_first,
working_set->edit_finished_list_last,
&file->edit_finished_mark_node);
file->edit_finished_mark_node.next = 0;
file->edit_finished_mark_node.prev = 0;
file->edit_finished_marked = false;
working_set->edit_finished_count -= 1;
result = true;
}
}
return(result);
}
////////////////////////////////
internal Editing_File*
imp_get_file(Models *models, Buffer_ID buffer_id){
Working_Set *working_set = &models->working_set;
Editing_File *file = working_set_get_active_file(working_set, buffer_id);
if (file != 0 && !file_is_ready(file)){
file = 0;
}
return(file);
}
// BOTTOM