4coder/4coder_mirror.cpp

954 lines
42 KiB
C++
Raw Normal View History

/*
4coder_mirror.cpp - Commands and helpers for parsing jump locations from
compiler errors, sticking markers on jump locations, and jumping to them.
*/
// TOP
static Managed_Variable_ID mirror_root_loc = 0;
#define DefaultMirrorRootName "DEFAULT.mirror_root"
static b32
mirror_edit_handler(Application_Links *app, Buffer_ID buffer_id, int32_t start, int32_t one_past_last, String text);
////////////////////////////////
static void
mirror__global_init(Application_Links *app){
if (mirror_root_loc == 0){
mirror_root_loc = managed_variable_create_or_get_id(app, DefaultMirrorRootName, 0);
}
}
static Managed_Object
mirror__check_scope_for_mirror(Application_Links *app, Managed_Scope scope){
Managed_Object result = 0;
Managed_Object mirror = 0;
if (managed_variable_get(app, scope, mirror_root_loc, &mirror)){
if (mirror != 0){
Managed_Object_Type object_type = managed_object_get_type(app, mirror);
if (object_type == ManagedObjectType_Memory){
result = mirror;
}
else{
managed_variable_set(app, scope, mirror_root_loc, 0);
}
}
}
return(result);
}
static b32
mirror_init__inner(Application_Links *app, Buffer_ID buffer, Mirror_Flags flags, Managed_Object *mirror_object_out){
b32 result = false;
Managed_Scope scope = 0;
if (buffer_get_managed_scope(app, buffer, &scope)){
Managed_Object mirror = mirror__check_scope_for_mirror(app, scope);
if (mirror == 0){
mirror = alloc_managed_memory_in_scope(app, scope, sizeof(Mirror), 1);
if (managed_variable_set(app, scope, mirror_root_loc, mirror)){
Mirror mirror_data = {};
mirror_data.mirror_buffer_id = buffer;
mirror_data.mode = MirrorMode_Constructing;
mirror_data.flags = flags;
mirror_data.mirror_scope = create_user_managed_scope(app);
*mirror_object_out = mirror;
managed_object_store_data(app, mirror, 0, 1, &mirror_data);
buffer_set_edit_handler(app, buffer, mirror_edit_handler);
result = true;
}
}
}
return(result);
}
static b32
mirror_end__inner(Application_Links *app, Managed_Object mirror){
b32 result = false;
Managed_Scope scope = managed_object_get_containing_scope(app, mirror);
Managed_Object mirror_check = mirror__check_scope_for_mirror(app, scope);
if (mirror_check == mirror){
Mirror mirror_data = {};
if (managed_object_load_data(app, mirror, 0, 1, &mirror_data)){
destroy_user_managed_scope(app, mirror_data.mirror_scope);
buffer_set_edit_handler(app, mirror_data.mirror_buffer_id, 0);
result = true;
}
managed_variable_set(app, scope, mirror_root_loc, 0);
managed_object_free(app, mirror);
}
return(result);
}
struct Mirror__Binary_Search_Result{
b32 abutting;
int32_t index;
};
static Mirror__Binary_Search_Result
mirror__binary_search_max_point_below(Marker *ranges, int32_t target, int32_t first, int32_t one_past_last){
Mirror__Binary_Search_Result result = {};
result.index = -1;
first = (first*2) - 1;
one_past_last = one_past_last*2;
for (;;){
int32_t mid = (first + one_past_last)/2;
int32_t pos = -1;
if (mid != -1){
Marker *marker = ranges + mid;
pos = marker->pos;
}
if (pos > target){
one_past_last = mid;
}
else if (pos < target){
first = mid;
}
else{
result.abutting = true;
result.index = mid;
break;
}
if (first + 1 >= one_past_last){
result.index = first;
break;
}
}
return(result);
}
static Mirror__Binary_Search_Result
mirror__binary_search_min_point_above(Marker *ranges, int32_t target, int32_t first, int32_t one_past_last,
int32_t fake_index, int32_t fake_pos){
Mirror__Binary_Search_Result result = {};
result.index = -1;
first = first*2;
one_past_last = (one_past_last*2) + 1;
for (;;){
int32_t mid = (first + one_past_last - 1)/2;
int32_t pos = fake_pos;
if (mid != fake_index){
Marker *marker = ranges + mid;
pos = marker->pos;
}
if (pos > target){
one_past_last = mid + 1;
}
else if (pos < target){
first = mid + 1;
}
else{
result.abutting = true;
result.index = mid;
break;
}
if (first + 1 >= one_past_last){
result.index = first;
break;
}
}
return(result);
}
static Mirror_Hot
mirror__hot_from_data(Application_Links *app, Arena *arena, Mirror mirror_data){
Mirror_Hot result = {};
Mirror_Hot mirror_hot = {};
mirror_hot.count = mirror_data.count;
mirror_hot.source_buffer_ids = push_array(arena, Buffer_ID, mirror_hot.count);
mirror_hot.mirror_ranges = push_array(arena, Marker, (mirror_hot.count)*2);
mirror_hot.source_ranges = push_array(arena, Managed_Object, mirror_hot.count);
if (managed_object_load_data(app, mirror_data.source_buffer_ids, 0, mirror_hot.count, mirror_hot.source_buffer_ids) &&
managed_object_load_data(app, mirror_data.mirror_ranges, 0, mirror_hot.count*2, mirror_hot.mirror_ranges) &&
managed_object_load_data(app, mirror_data.source_ranges, 0, mirror_hot.count, mirror_hot.source_ranges)){
result = mirror_hot;
}
return(result);
}
static b32
mirror__min_max_point_indices_not_intersecting(int32_t above_point, int32_t below_point, int32_t *range_index_out){
b32 result = false;
if (below_point < above_point && (above_point%2) == 0 && ((below_point + 2)%2) == 1){
*range_index_out = above_point/2;
result = true;
}
return(result);
}
static b32
mirror__min_max_point_indices_contained(int32_t above_point, int32_t below_point, int32_t *range_index_out){
b32 result = false;
if (below_point < above_point && (above_point%2) == 1 && ((below_point + 2)%2) == 0){
*range_index_out = above_point/2;
result = true;
}
return(result);
}
struct Mirror__Check_Range_Result{
b32 passed_checks;
int32_t insert_index;
};
static Mirror__Check_Range_Result
mirror__check_range_to_add(Application_Links *app, Arena *scratch, int32_t mirror_first, int32_t source_first, int32_t length,
Buffer_Summary *source_buffer, Buffer_Summary *mirror_buffer, Mirror_Hot *mirror_hot,
int32_t collidable_indices_first, b32 auto_trust_text){
// check the new range for the following rules and determine the insert index
Mirror__Check_Range_Result result = {};
result.insert_index = -1;
// 1. the source range must be entirely contained in the source buffer and
// the mirror range must be entirely contained in the mirror buffer
int32_t source_one_past_last = source_first + length;
int32_t mirror_one_past_last = mirror_first + length;
if (0 <= source_first && source_one_past_last <= source_buffer->size &&
0 <= mirror_first && mirror_one_past_last <= mirror_buffer->size){
// 2. the mirror range must not overlap or abut any existing mirror ranges
b32 independent_range = false;
if (mirror_hot->count == 0){
independent_range = true;
result.insert_index = 0;
}
else{
int32_t fake_index = mirror_hot->count*2;
int32_t fake_pos = mirror_buffer->size + 1;
Mirror__Binary_Search_Result above_point = mirror__binary_search_min_point_above(mirror_hot->mirror_ranges, mirror_first,
collidable_indices_first, mirror_hot->count,
fake_index, fake_pos);
Mirror__Binary_Search_Result below_point = {};
if (!above_point.abutting){
below_point = mirror__binary_search_max_point_below(mirror_hot->mirror_ranges, mirror_first,
collidable_indices_first, mirror_hot->count);
if (!below_point.abutting){
if (mirror__min_max_point_indices_not_intersecting(above_point.index, below_point.index, &result.insert_index)){
independent_range = true;
Assert(0 <= result.insert_index && result.insert_index <= mirror_hot->count);
}
}
}
}
if (independent_range){
// 3. the text in the source range must exactly match the text in the mirror range
if (auto_trust_text){
result.passed_checks = true;
}
else{
char *buffer_1 = push_array(scratch, char, length);
char *buffer_2 = push_array(scratch, char, length);
if (buffer_read_range(app, source_buffer->buffer_id, source_first, source_first + length, buffer_1)){
if (buffer_read_range(app, mirror_buffer->buffer_id, mirror_first, mirror_first + length, buffer_2)){
if (memcmp(buffer_1, buffer_2, length) == 0){
result.passed_checks = true;
}
}
}
}
}
}
return(result);
}
static b32
mirror_add_range__inner_check_optimization(Application_Links *app, Managed_Object mirror, Buffer_ID source,
int32_t mirror_first, int32_t source_first, int32_t length,
int32_t collidable_indices_first, b32 auto_trust_text, int32_t *insert_index_out){
b32 result = false;
if (length > 0){
Buffer_Summary source_buffer = {};
if (get_buffer_summary(app, source, AccessAll, &source_buffer)){
Managed_Scope scope = managed_object_get_containing_scope(app, mirror);
Managed_Object mirror_check = mirror__check_scope_for_mirror(app, scope);
if (mirror_check == mirror){
Mirror mirror_data = {};
if (managed_object_load_data(app, mirror, 0, 1, &mirror_data)){
Buffer_Summary mirror_buffer = {};
Buffer_ID mirror_id = mirror_data.mirror_buffer_id;
if (get_buffer_summary(app, mirror_id, AccessAll, &mirror_buffer)){
Arena arena = make_arena(app, (8 << 10));
// read mirror data into hot structure
Mirror_Hot mirror_hot = {};
mirror_hot.count = mirror_data.count;
mirror_hot.source_buffer_ids = push_array(&arena, Buffer_ID, mirror_hot.count);
mirror_hot.mirror_ranges = push_array(&arena, Marker, (mirror_hot.count)*2);
mirror_hot.source_ranges = push_array(&arena, Managed_Object, mirror_hot.count);
b32 load_success = false;
if (mirror_hot.count == 0){
load_success = true;
}
else{
load_success = (managed_object_load_data(app, mirror_data.source_buffer_ids, 0, mirror_hot.count , mirror_hot.source_buffer_ids) &&
managed_object_load_data(app, mirror_data.mirror_ranges , 0, mirror_hot.count*2, mirror_hot.mirror_ranges ) &&
managed_object_load_data(app, mirror_data.source_ranges , 0, mirror_hot.count , mirror_hot.source_ranges ));
}
if (load_success){
Mirror__Check_Range_Result check = mirror__check_range_to_add(app, &arena, mirror_first, source_first, length,
&source_buffer, &mirror_buffer, &mirror_hot,
collidable_indices_first, auto_trust_text);
if (check.passed_checks){
// insert the new range at the insert index
b32 r = true;
int32_t insert_index = check.insert_index;
*insert_index_out = insert_index;
Marker mirror_range[2] = {};
mirror_range[0].pos = mirror_first;
mirror_range[0].lean_right = false;
mirror_range[1].pos = mirror_first + length;
mirror_range[1].lean_right = true;
Marker source_range[2] = {};
source_range[0].pos = source_first;
source_range[0].lean_right = false;
source_range[1].pos = source_first + length;
source_range[1].lean_right = true;
Managed_Scope scopes[3] = {};
scopes[0] = scope;
scopes[1] = mirror_data.mirror_scope;
buffer_get_managed_scope(app, source, &scopes[2]);
Managed_Scope source_sub_scope = get_managed_scope_with_multiple_dependencies(app, scopes, 3);
Managed_Object new_source_range = alloc_buffer_markers_on_buffer(app, source, 2, &source_sub_scope);
r = r && managed_object_store_data(app, new_source_range, 0, 2, &source_range);
if (mirror_data.count + 1 > mirror_data.max){
if (mirror_data.count != 0){
r = r && managed_object_free(app, mirror_data.source_buffer_ids);
r = r && managed_object_free(app, mirror_data.mirror_ranges);
r = r && managed_object_free(app, mirror_data.source_ranges);
}
Managed_Scope mirror_sub_scope = get_managed_scope_with_multiple_dependencies(app, scopes, 2);
int32_t new_max = 256;
if (new_max <= mirror_data.max){
new_max = mirror_data.max*2;
}
mirror_data.source_buffer_ids = alloc_managed_memory_in_scope(app, mirror_sub_scope, sizeof(Buffer_ID), new_max);
mirror_data.mirror_ranges = alloc_buffer_markers_on_buffer(app, mirror_id, new_max*2, &mirror_sub_scope);
mirror_data.source_ranges = alloc_managed_memory_in_scope(app, mirror_sub_scope, sizeof(Managed_Object), new_max);
mirror_data.max = new_max;
// head ranges
int32_t head_count = insert_index;
if (head_count > 0){
r = r && managed_object_store_data(app, mirror_data.source_buffer_ids, 0, head_count , mirror_hot.source_buffer_ids);
r = r && managed_object_store_data(app, mirror_data.mirror_ranges , 0, head_count*2, mirror_hot.mirror_ranges );
r = r && managed_object_store_data(app, mirror_data.source_ranges , 0, head_count , mirror_hot.source_ranges );
}
}
// tail ranges
int32_t tail_count = mirror_hot.count - insert_index;
if (tail_count > 0){
int32_t to = insert_index + 1;
int32_t from = insert_index;
r = r && managed_object_store_data(app, mirror_data.source_buffer_ids, to , tail_count , mirror_hot.source_buffer_ids + from);
r = r && managed_object_store_data(app, mirror_data.mirror_ranges , to*2, tail_count*2, mirror_hot.mirror_ranges + from*2 );
r = r && managed_object_store_data(app, mirror_data.source_ranges , to , tail_count , mirror_hot.source_ranges + from );
}
// new range
r = r && managed_object_store_data(app, mirror_data.source_buffer_ids, insert_index , 1, &source );
r = r && managed_object_store_data(app, mirror_data.mirror_ranges , insert_index*2, 2, mirror_range );
r = r && managed_object_store_data(app, mirror_data.source_ranges , insert_index , 1, &new_source_range);
mirror_data.count += 1;
managed_object_store_data(app, mirror, 0, 1, &mirror_data);
result = r;
}
}
arena_release_all(&arena);
}
}
}
}
}
return(result);
}
static b32
mirror_add_range__inner(Application_Links *app, Managed_Object mirror, Buffer_ID source,
int32_t mirror_first, int32_t source_first, int32_t length){
int32_t ignore = 0;
return(mirror_add_range__inner_check_optimization(app, mirror, source, mirror_first, source_first, length, 0, false, &ignore));
}
static b32
mirror_set_mode__inner(Application_Links *app, Managed_Object mirror, Mirror_Mode mode){
b32 result = false;
Managed_Scope scope = managed_object_get_containing_scope(app, mirror);
Managed_Object mirror_check = mirror__check_scope_for_mirror(app, scope);
if (mirror_check == mirror){
Mirror mirror_data = {};
if (managed_object_load_data(app, mirror, 0, 1, &mirror_data)){
mirror_data.mode = mode;
if (managed_object_store_data(app, mirror, 0, 1, &mirror_data)){
result = true;
}
}
}
return(result);
}
static b32
mirror_get_mode__inner(Application_Links *app, Managed_Object mirror, Mirror_Mode *mode_out){
b32 result = false;
Managed_Scope scope = managed_object_get_containing_scope(app, mirror);
Managed_Object mirror_check = mirror__check_scope_for_mirror(app, scope);
if (mirror_check == mirror){
Mirror mirror_data = {};
if (managed_object_load_data(app, mirror, 0, 1, &mirror_data)){
*mode_out = mirror_data.mode;
result = true;
}
}
return(result);
}
static b32
mirror_set_flags__inner(Application_Links *app, Managed_Object mirror, Mirror_Flags flags){
b32 result = false;
Managed_Scope scope = managed_object_get_containing_scope(app, mirror);
Managed_Object mirror_check = mirror__check_scope_for_mirror(app, scope);
if (mirror_check == mirror){
Mirror mirror_data = {};
if (managed_object_load_data(app, mirror, 0, 1, &mirror_data)){
mirror_data.flags = flags;
if (managed_object_store_data(app, mirror, 0, 1, &mirror_data)){
result = true;
}
}
}
return(result);
}
static b32
mirror_get_flags__inner(Application_Links *app, Managed_Object mirror, Mirror_Flags *flags_out){
b32 result = false;
Managed_Scope scope = managed_object_get_containing_scope(app, mirror);
Managed_Object mirror_check = mirror__check_scope_for_mirror(app, scope);
if (mirror_check == mirror){
Mirror mirror_data = {};
if (managed_object_load_data(app, mirror, 0, 1, &mirror_data)){
*flags_out = mirror_data.flags;
result = true;
}
}
return(result);
}
////////////////////////////////
static b32
mirror_init(Application_Links *app, Buffer_ID buffer, Mirror_Flags flags, Managed_Object *mirror_object_out){
mirror__global_init(app);
return(mirror_init__inner(app, buffer, flags, mirror_object_out));
}
static b32
mirror_end(Application_Links *app, Managed_Object mirror){
mirror__global_init(app);
return(mirror_end__inner(app, mirror));
}
static b32
mirror_add_range(Application_Links *app, Managed_Object mirror, Buffer_ID source,
int32_t mirror_first, int32_t source_first, int32_t length){
mirror__global_init(app);
return(mirror_add_range__inner(app, mirror, source, mirror_first, source_first, length));
}
static b32
mirror_set_mode(Application_Links *app, Managed_Object mirror, Mirror_Mode mode){
mirror__global_init(app);
return(mirror_set_mode__inner(app, mirror, mode));
}
static b32
mirror_get_mode(Application_Links *app, Managed_Object mirror, Mirror_Mode *mode_out){
mirror__global_init(app);
return(mirror_get_mode__inner(app, mirror, mode_out));
}
static b32
mirror_set_flags(Application_Links *app, Managed_Object mirror, Mirror_Flags flags){
mirror__global_init(app);
return(mirror_set_flags__inner(app, mirror, flags));
}
static b32
mirror_get_flags(Application_Links *app, Managed_Object mirror, Mirror_Flags *flags_out){
mirror__global_init(app);
return(mirror_get_flags__inner(app, mirror, flags_out));
}
////////////////////////////////
static b32
mirror_buffer_create(Application_Links *app, String buffer_name, Mirror_Flags flags, Buffer_ID *mirror_buffer_id_out){
mirror__global_init(app);
b32 result = false;
Buffer_ID new_buffer = 0;
if (!get_buffer_by_name(app, buffer_name, AccessAll, &new_buffer)){
if (new_buffer == 0){
if (create_buffer(app, buffer_name, BufferCreate_NeverAttachToFile|BufferCreate_AlwaysNew, &new_buffer)){
Managed_Object ignore_object = 0;
if (mirror_init__inner(app, new_buffer, flags, &ignore_object)){
*mirror_buffer_id_out = new_buffer;
result = true;
}
}
}
}
return(false);
}
static Managed_Scope
mirror__buffer_to_object(Application_Links *app, Buffer_ID buffer){
Managed_Object result = 0;
Managed_Scope scope = 0;
if (buffer_get_managed_scope(app, buffer, &scope)){
result = mirror__check_scope_for_mirror(app, scope);
}
return(result);
}
static b32
mirror_buffer_end(Application_Links *app, Buffer_ID mirror){
mirror__global_init(app);
b32 result = false;
Managed_Object mirror_object = mirror__buffer_to_object(app, mirror);
if (mirror_object != 0){
result = mirror_end__inner(app, mirror_object);
}
return(result);
}
static b32
mirror_buffer_add_range_exact(Application_Links *app, Buffer_ID mirror, Buffer_ID source,
int32_t mirror_first, int32_t source_first, int32_t length){
mirror__global_init(app);
b32 result = false;
Managed_Object mirror_object = mirror__buffer_to_object(app, mirror);
if (mirror_object != 0){
result = mirror_add_range__inner(app, mirror_object, source, mirror_first, source_first, length);
}
return(result);
}
static int32_t
mirror__range_loose_get_length(Application_Links *app, Buffer_ID mirror, Buffer_ID source,
int32_t mirror_first, int32_t source_first, int32_t max_length){
int32_t result = 0;
Arena arena = make_arena(app, (8 << 10));
char *buffer_1 = push_array(&arena, char, max_length);
char *buffer_2 = push_array(&arena, char, max_length);
if (buffer_read_range(app, source, source_first, source_first + max_length, buffer_1)){
if (buffer_read_range(app, mirror, mirror_first, mirror_first + max_length, buffer_2)){
for (; result < max_length;
result += 1){
if (buffer_1[result] != buffer_2[result]){
break;
}
}
}
}
arena_release_all(&arena);
return(result);
}
static b32
mirror_buffer_add_range_loose(Application_Links *app, Buffer_ID mirror, Buffer_ID source,
int32_t mirror_first, int32_t source_first, int32_t max_length){
mirror__global_init(app);
b32 result = false;
int32_t length = mirror__range_loose_get_length(app, mirror, source, mirror_first, source_first, max_length);
if (length > 0){
Managed_Object mirror_object = mirror__buffer_to_object(app, mirror);
if (mirror_object != 0){
result = mirror_add_range__inner(app, mirror_object, source, mirror_first, source_first, length);
}
}
return(result);
}
static b32
mirror_buffer_insert_range(Application_Links *app, Buffer_ID mirror, Buffer_ID source,
int32_t mirror_insert_pos, int32_t source_first, int32_t length){
mirror__global_init(app);
b32 result = false;
Managed_Object mirror_object = mirror__buffer_to_object(app, mirror);
if (mirror_object != 0){
Mirror_Mode mode = 0;
if (mirror_get_mode__inner(app, mirror_object, &mode)){
if (mode == MirrorMode_Constructing){
b32 did_insert = false;
{
Arena arena = make_arena(app, (8 << 10));
char *buffer = push_array(&arena, char, length);
if (buffer_read_range(app, source, source_first, source_first + length, buffer)){
String string = make_string(buffer, length);
if (buffer_replace_range(app, mirror, mirror_insert_pos, mirror_insert_pos, string)){
did_insert = true;
}
}
arena_release_all(&arena);
}
if (did_insert){
result = mirror_add_range__inner(app, mirror_object, source, mirror_insert_pos, source_first, length);
}
}
}
}
return(result);
}
static b32
mirror_buffer_set_mode(Application_Links *app, Buffer_ID mirror, Mirror_Mode mode){
mirror__global_init(app);
b32 result = false;
Managed_Object mirror_object = mirror__buffer_to_object(app, mirror);
if (mirror_object != 0){
result = mirror_set_mode__inner(app, mirror_object, mode);
}
return(result);
}
static b32
mirror_buffer_get_mode(Application_Links *app, Buffer_ID mirror, Mirror_Mode *mode_out){
mirror__global_init(app);
b32 result = false;
Managed_Object mirror_object = mirror__buffer_to_object(app, mirror);
if (mirror_object != 0){
result = mirror_get_mode__inner(app, mirror_object, mode_out);
}
return(result);
}
static b32
mirror_buffer_set_flags(Application_Links *app, Buffer_ID mirror, Mirror_Flags flags){
mirror__global_init(app);
b32 result = false;
Managed_Object mirror_object = mirror__buffer_to_object(app, mirror);
if (mirror_object != 0){
result = mirror_set_flags__inner(app, mirror_object, flags);
}
return(result);
}
static b32
mirror_buffer_get_flags(Application_Links *app, Buffer_ID mirror, Mirror_Flags *flags_out){
mirror__global_init(app);
b32 result = false;
Managed_Object mirror_object = mirror__buffer_to_object(app, mirror);
if (mirror_object != 0){
result = mirror_get_flags__inner(app, mirror_object, flags_out);
}
return(result);
}
static b32
mirror_buffer_refresh(Application_Links *app, Buffer_ID mirror){
mirror__global_init(app);
b32 result = false;
Managed_Object mirror_object = mirror__buffer_to_object(app, mirror);
if (mirror_object != 0){
// TODO(allen):
}
return(result);
}
static void
mirror_quick_sort_mirror_ranges(Mirror_Range *ranges, int32_t first, int32_t one_past_last){
int32_t last = one_past_last - 1;
if (first < last){
int32_t pivot_mirror_first = ranges[last].mirror_first;
int32_t j = first;
for (int32_t i = first; i < last; i += 1){
int32_t mirror_first = ranges[i].mirror_first;
if (mirror_first < pivot_mirror_first){
if (j < i){
Mirror_Range t = ranges[i];
ranges[i] = ranges[j];
ranges[j] = t;
}
j += 1;
}
}
{
Mirror_Range t = ranges[last];
ranges[last] = ranges[j];
ranges[j] = t;
}
int32_t pivot = j;
mirror_quick_sort_mirror_ranges(ranges, first, pivot);
mirror_quick_sort_mirror_ranges(ranges, pivot + 1, one_past_last);
}
}
static b32
mirror__check_range_array_sorting(Mirror_Range *ranges, int32_t count){
b32 result = true;
int32_t prev_pos = -1;
for (int32_t i = 0; i < count; i += 1){
int32_t first = ranges[i].mirror_first;
int32_t one_past_last = first + ranges[i].length;
if (prev_pos < first && first <= one_past_last){
prev_pos = one_past_last;
}
else{
result = false;
break;
}
}
return(result);
}
static b32
mirror_buffer_add_range_exact_array(Application_Links *app, Buffer_ID mirror, Mirror_Range *ranges, int32_t count){
mirror__global_init(app);
b32 result = false;
Managed_Object mirror_object = mirror__buffer_to_object(app, mirror);
if (mirror_object != 0){
if (mirror__check_range_array_sorting(ranges, count)){
b32 r = true;
Mirror_Range *range = ranges;
int32_t safe_to_ignore_index = 0;
for (int32_t i = 0; i < count; i += 1, range += 1){
int32_t new_range_index = 0;
if (range->length > 0){
if (!mirror_add_range__inner_check_optimization(app, mirror_object, range->source_buffer_id,
range->mirror_first, range->source_first, range->length,
safe_to_ignore_index, false, &new_range_index)){
r = false;
}
else{
safe_to_ignore_index = new_range_index + 1;
}
}
}
result = r;
}
}
return(result);
}
static b32
mirror_buffer_add_range_loose_array(Application_Links *app, Buffer_ID mirror, Mirror_Range *ranges, int32_t count){
mirror__global_init(app);
b32 result = false;
Managed_Object mirror_object = mirror__buffer_to_object(app, mirror);
if (mirror_object != 0){
{
Mirror_Range *range = ranges;
for (int32_t i = 0; i < count; i += 1, range += 1){
range->length = mirror__range_loose_get_length(app, mirror, range->source_buffer_id, range->mirror_first, range->source_first, range->length);
}
}
if (mirror__check_range_array_sorting(ranges, count)){
b32 r = true;
Mirror_Range *range = ranges;
int32_t safe_to_ignore_index = 0;
for (int32_t i = 0; i < count; i += 1, range += 1){
int32_t new_range_index = 0;
if (range->length > 0){
if (!mirror_add_range__inner_check_optimization(app, mirror_object, range->source_buffer_id,
range->mirror_first, range->source_first, range->length,
safe_to_ignore_index, false, &new_range_index)){
r = false;
}
else{
safe_to_ignore_index = new_range_index + 1;
}
}
}
result = r;
}
}
return(result);
}
static b32
mirror_buffer_insert_range_array(Application_Links *app, Buffer_ID mirror, Mirror_Range *ranges, int32_t count){
mirror__global_init(app);
b32 result = false;
Managed_Object mirror_object = mirror__buffer_to_object(app, mirror);
if (mirror_object != 0){
Mirror_Mode mode = 0;
if (mirror_get_mode__inner(app, mirror_object, &mode)){
if (mode == MirrorMode_Constructing){
if (mirror__check_range_array_sorting(ranges, count)){
b32 r = true;
Mirror_Range *range = ranges;
int32_t safe_to_ignore_index = 0;
int32_t total_shift = 0;
Arena arena = make_arena(app, (8 << 10));
for (int32_t i = 0; i < count; i += 1, range += 1){
int32_t mirror_first = range->mirror_first + total_shift;
b32 did_insert = false;
{
Temp_Memory_Arena temp = begin_temp_memory(&arena);
char *buffer = push_array(&arena, char, range->length);
if (buffer_read_range(app, range->source_buffer_id, range->source_first, range->source_first + range->length, buffer)){
String string = make_string(buffer, range->length);
if (buffer_replace_range(app, mirror, mirror_first, mirror_first, string)){
did_insert = true;
}
}
end_temp_memory(temp);
}
int32_t new_range_index = 0;
if (range->length > 0){
if (!mirror_add_range__inner_check_optimization(app, mirror_object, range->source_buffer_id,
mirror_first, range->source_first, range->length,
safe_to_ignore_index, false, &new_range_index)){
r = false;
}
else{
safe_to_ignore_index = new_range_index + 1;
}
}
total_shift += range->length;
}
arena_release_all(&arena);
result = r;
}
}
}
}
return(result);
}
////////////////////////////////
static b32
mirror_edit_handler(Application_Links *app, Buffer_ID buffer_id, int32_t first, int32_t one_past_last, String text){
mirror__global_init(app);
b32 result = false;
Buffer_Summary mirror_buffer = {};
if (get_buffer_summary(app, buffer_id, AccessAll, &mirror_buffer)){
Managed_Object mirror = mirror__buffer_to_object(app, buffer_id);
if (mirror != 0){
Mirror_Mode mode = 0;
if (mirror_get_mode__inner(app, mirror, &mode)){
Mirror mirror_data = {};
if (managed_object_load_data(app, mirror, 0, 1, &mirror_data)){
Arena arena = make_arena(app, (8 << 10));
Mirror_Hot mirror_hot = mirror__hot_from_data(app, &arena, mirror_data);
switch (mode){
case MirrorMode_Constructing:
{
b32 unreflected_range = false;
if (mirror_hot.count == 0){
unreflected_range = true;
}
else{
int32_t fake_index = mirror_hot.count*2;
int32_t fake_pos = mirror_buffer.size + 1;
Mirror__Binary_Search_Result above_point = mirror__binary_search_min_point_above(mirror_hot.mirror_ranges, first,
0, mirror_hot.count,
fake_index, fake_pos);
Mirror__Binary_Search_Result below_point = mirror__binary_search_max_point_below(mirror_hot.mirror_ranges, one_past_last,
0, mirror_hot.count);
int32_t ignore = 0;
if (mirror__min_max_point_indices_not_intersecting(above_point.index, below_point.index, &ignore)){
unreflected_range = true;
}
}
if (unreflected_range){
result = buffer_replace_range(app, buffer_id, first, one_past_last, text);
}
}break;
case MirrorMode_Reflecting:
{
b32 newlines_are_jumps = ((mirror_data.flags & MirrorFlag_NewlinesAreJumps) != 0);
b32 blocked = false;
if (newlines_are_jumps){
if (has_substr(text, make_lit_string("\n"))){
blocked = true;
}
if (match(text, "\n")){
User_Input in = get_command_input(app);
if (in.key.modifiers[MDFR_SHIFT_INDEX]){
goto_jump_at_cursor_same_panel_sticky(app);
}
else{
goto_jump_at_cursor_sticky(app);
}
lock_jump_buffer(app, buffer_id);
}
}
if (!blocked){
b32 reflected_range = false;
int32_t range_index = 0;
if (mirror_hot.count > 0){
int32_t fake_index = mirror_hot.count*2;
int32_t fake_pos = mirror_buffer.size + 1;
Mirror__Binary_Search_Result above_point = mirror__binary_search_min_point_above(mirror_hot.mirror_ranges, first,
0, mirror_hot.count,
fake_index, fake_pos);
Mirror__Binary_Search_Result below_point = mirror__binary_search_max_point_below(mirror_hot.mirror_ranges, one_past_last,
0, mirror_hot.count);
if (mirror__min_max_point_indices_contained(above_point.index, below_point.index, &range_index)){
reflected_range = true;
}
}
if (reflected_range){
// check that the range_index is valid and get source if it is
Managed_Object source_range_object = mirror_hot.source_ranges[range_index];
if (managed_object_get_type(app, source_range_object) == ManagedObjectType_Markers){
Buffer_ID source = mirror_hot.source_buffer_ids[range_index];
Marker *mirror_range = mirror_hot.mirror_ranges + range_index*2;
Marker source_range[2];
if (managed_object_load_data(app, source_range_object, 0, 2, source_range)){
int32_t base_source_first = source_range[0].pos;
//int32_t base_source_one_past_last = source_range[1].pos;
int32_t base_mirror_first = mirror_range[0].pos;
//int32_t base_mirror_one_past_last = mirror_range[1].pos;
int32_t source_first = base_source_first + (first - base_mirror_first);
int32_t source_one_past_last = source_first + (one_past_last - first);
global_history_edit_group_begin(app);
if (buffer_replace_range(app, source, source_first, source_one_past_last, text)){
result = buffer_replace_range(app, buffer_id, first, one_past_last, text);
}
global_history_edit_group_end(app);
}
}
}
}
}break;
}
arena_release_all(&arena);
}
}
}
}
return(result);
}
// BOTTOM