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4coder/buffer/4coder_buffer_abstract.cpp

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/*
* Mr. 4th Dimention - Allen Webster
* Four Tech
*
* public domain -- no warranty is offered or implied; use this code at your own risk
*
* 24.10.2015
*
* Buffer data object
* type - Golden Array
*
*/
// TOP
#define Buffer_Init_Type cat_4tech(Buffer_Type, _Init)
#define Buffer_Stringify_Type cat_4tech(Buffer_Type, _Stringify_Loop)
#define Buffer_Backify_Type cat_4tech(Buffer_Type, _Backify_Loop)
inline_4tech void
buffer_stringify(Buffer_Type *buffer, int start, int end, char *out){
for (Buffer_Stringify_Type loop = buffer_stringify_loop(buffer, start, end);
buffer_stringify_good(&loop);
buffer_stringify_next(&loop)){
memcpy_4tech(out, loop.data, loop.size);
out += loop.size;
}
}
inline_4tech void
buffer_backify(Buffer_Type *buffer, int start, int end, char *out){
for (Buffer_Backify_Type loop = buffer_backify_loop(buffer, end, start);
buffer_backify_good(&loop);
buffer_backify_next(&loop)){
memcpy_4tech(out, loop.data, loop.size);
out += loop.size;
}
}
internal_4tech char
buffer_get_char(Buffer_Type *buffer, int i){
char out = 0;
if (i >= 0 && i < buffer_size(buffer)){
buffer_stringify(buffer, i, i+1, &out);
}
return(out);
}
internal_4tech int
buffer_convert_out(Buffer_Type *buffer, char *dest, int max){
Buffer_Stringify_Type loop;
int size, out_size, pos, result;
size = buffer_size(buffer);
assert_4tech(size + buffer->line_count < max);
pos = 0;
for (loop = buffer_stringify_loop(buffer, 0, size);
buffer_stringify_good(&loop);
buffer_stringify_next(&loop)){
result = eol_convert_out(dest + pos, max - pos, loop.data, loop.size, &out_size);
assert_4tech(result);
pos += out_size;
}
return(pos);
}
internal_4tech int
buffer_count_newlines(Buffer_Type *buffer, int start, int end){
Buffer_Stringify_Type loop;
int i;
int count;
assert_4tech(0 <= start);
assert_4tech(start <= end);
assert_4tech(end <= buffer_size(buffer));
count = 0;
for (loop = buffer_stringify_loop(buffer, start, end);
buffer_stringify_good(&loop);
buffer_stringify_next(&loop)){
for (i = 0; i < loop.size; ++i){
count += (loop.data[i] == '\n');
}
}
return(count);
}
internal_4tech int
buffer_seek_delimiter(Buffer_Type *buffer, int pos, char delim){
Buffer_Stringify_Type loop;
char *data;
int end, size;
size = buffer_size(buffer);
for(loop = buffer_stringify_loop(buffer, pos, size);
buffer_stringify_good(&loop);
buffer_stringify_next(&loop)){
end = loop.size + loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; pos < end; ++pos){
if (data[pos] == delim) goto double_break;
}
}
double_break:
return(pos);
}
internal_4tech int
buffer_reverse_seek_delimiter(Buffer_Type *buffer, int pos, char delim){
Buffer_Backify_Type loop;
char *data;
int end;
for(loop = buffer_backify_loop(buffer, pos, 0);
buffer_backify_good(&loop);
buffer_backify_next(&loop)){
end = loop.size + loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; pos >= 0; --pos){
if (data[pos] == delim) goto double_break;
}
}
double_break:
return(pos);
}
internal_4tech int
buffer_seek_whitespace_right(Buffer_Type *buffer, int pos){
Buffer_Stringify_Type loop;
char *data;
int end;
int size;
size = buffer_size(buffer);
loop = buffer_stringify_loop(buffer, pos, size);
for (;buffer_stringify_good(&loop);
buffer_stringify_next(&loop)){
end = loop.size + loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; pos < end && is_whitespace(data[pos]); ++pos);
if (!is_whitespace(data[pos])) break;
}
for (;buffer_stringify_good(&loop);
buffer_stringify_next(&loop)){
end = loop.size + loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; pos < end && !is_whitespace(data[pos]); ++pos);
if (is_whitespace(data[pos])) break;
}
return(pos);
}
internal_4tech int
buffer_seek_whitespace_left(Buffer_Type *buffer, int pos){
Buffer_Backify_Type loop;
char *data;
int end;
int size;
--pos;
if (pos > 0){
size = buffer_size(buffer);
loop = buffer_backify_loop(buffer, pos, 1);
for (;buffer_backify_good(&loop);
buffer_backify_next(&loop)){
end = loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; pos >= end && is_whitespace(data[pos]); --pos);
if (!is_whitespace(data[pos])) break;
}
for (;buffer_backify_good(&loop);
buffer_backify_next(&loop)){
end = loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; pos >= end && !is_whitespace(data[pos]); --pos);
if (is_whitespace(data[pos])) break;
}
if (pos != 0) ++pos;
}
else{
pos = 0;
}
return(pos);
}
internal_4tech int
buffer_seek_word_right_assume_on_word(Buffer_Type *buffer, int pos){
Buffer_Stringify_Type loop;
char *data;
int end;
int size;
size = buffer_size(buffer);
loop = buffer_stringify_loop(buffer, pos, size);
for (;buffer_stringify_good(&loop);
buffer_stringify_next(&loop)){
end = loop.size + loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; pos < end; ++pos){
if (!is_alphanumeric(data[pos])) goto double_break;
}
}
double_break:
return(pos);
}
internal_4tech int
buffer_seek_alphanumeric_right(Buffer_Type *buffer, int pos){
Buffer_Stringify_Type loop;
char *data;
int end;
int size;
size = buffer_size(buffer);
loop = buffer_stringify_loop(buffer, pos, size);
for (;buffer_stringify_good(&loop);
buffer_stringify_next(&loop)){
end = loop.size + loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; pos < end; ++pos){
if (is_alphanumeric_true(data[pos])) goto buffer_seek_alphanumeric_right_mid;
}
}
buffer_seek_alphanumeric_right_mid:
for (;buffer_stringify_good(&loop);
buffer_stringify_next(&loop)){
end = loop.size + loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; pos < end; ++pos){
if (!is_alphanumeric_true(data[pos])) goto buffer_seek_alphanumeric_right_end;
}
}
buffer_seek_alphanumeric_right_end:
return(pos);
}
internal_4tech int
buffer_seek_alphanumeric_left(Buffer_Type *buffer, int pos){
Buffer_Backify_Type loop;
char *data;
int end;
int size;
--pos;
if (pos >= 0){
size = buffer_size(buffer);
loop = buffer_backify_loop(buffer, pos, 1);
for (;buffer_backify_good(&loop);
buffer_backify_next(&loop)){
end = loop.absolute_pos;
data = loop.data - end;
for (; pos >= end; --pos){
if (is_alphanumeric_true(data[pos])) goto buffer_seek_alphanumeric_left_mid;
}
}
buffer_seek_alphanumeric_left_mid:
for (;buffer_backify_good(&loop);
buffer_backify_next(&loop)){
end = loop.absolute_pos;
data = loop.data - end;
for (; pos >= end; --pos){
if (!is_alphanumeric_true(data[pos])){
++pos;
goto buffer_seek_alphanumeric_left_end;
}
}
}
}
else{
pos = 0;
}
buffer_seek_alphanumeric_left_end:
return(pos);
}
internal_4tech int
buffer_seek_range_camel_right(Buffer_Type *buffer, int pos, int an_pos){
Buffer_Stringify_Type loop;
char *data;
int end, size;
char ch, prev_ch;
size = buffer_size(buffer);
assert_4tech(pos <= an_pos);
assert_4tech(an_pos <= size);
++pos;
if (pos < an_pos){
loop = buffer_stringify_loop(buffer, pos, an_pos);
if (buffer_stringify_good(&loop)){
prev_ch = loop.data[0];
++pos;
for (;buffer_stringify_good(&loop);
buffer_stringify_next(&loop)){
end = loop.size + loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; pos < end; ++pos){
ch = data[pos];
if (is_upper(ch) && is_lower(prev_ch)) goto buffer_seek_alphanumeric_or_camel_right_end;
prev_ch = ch;
}
}
}
}
else{
pos = an_pos;
}
buffer_seek_alphanumeric_or_camel_right_end:
return(pos);
}
internal_4tech int
buffer_seek_range_camel_left(Buffer_Type *buffer, int pos, int an_pos){
Buffer_Backify_Type loop;
char *data;
int end, size;
char ch, prev_ch;
size = buffer_size(buffer);
assert_4tech(an_pos <= pos);
assert_4tech(0 <= an_pos);
--pos;
loop = buffer_backify_loop(buffer, pos, an_pos+1);
if (buffer_backify_good(&loop)){
prev_ch = loop.data[0];
for (;buffer_backify_good(&loop);
buffer_backify_next(&loop)){
end = loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; pos >= end; --pos){
ch = data[pos];
if (is_upper(ch) && is_lower(prev_ch)) goto buffer_seek_alphanumeric_or_camel_left_end;
prev_ch = ch;
}
}
}
buffer_seek_alphanumeric_or_camel_left_end:
return(pos);
}
internal_4tech int
buffer_seek_alphanumeric_or_camel_right(Buffer_Type *buffer, int pos){
int an_pos, result;
an_pos = buffer_seek_alphanumeric_right(buffer, pos);
result = buffer_seek_range_camel_right(buffer, pos, an_pos);
return(result);
}
internal_4tech int
buffer_seek_alphanumeric_or_camel_left(Buffer_Type *buffer, int pos){
int an_pos, result;
an_pos = buffer_seek_alphanumeric_left(buffer, pos);
result = buffer_seek_range_camel_left(buffer, pos, an_pos);
return(result);
}
struct Hard_Start_Result{
int char_pos;
int indent_pos;
int all_whitespace;
int all_space;
};
internal_4tech Hard_Start_Result
buffer_find_hard_start(Buffer_Type *buffer, int line_start, int tab_width){
Hard_Start_Result result = {0};
Buffer_Stringify_Type loop;
char *data;
int size, end;
char c;
result.all_space = 1;
result.indent_pos = 0;
size = buffer_size(buffer);
tab_width -= 1;
result.char_pos = line_start;
for (loop = buffer_stringify_loop(buffer, line_start, size);
buffer_stringify_good(&loop);
buffer_stringify_next(&loop)){
end = loop.size + loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; result.char_pos < end; ++result.char_pos){
c = data[result.char_pos];
if (c == '\n' || c == 0){
result.all_whitespace = 1;
goto buffer_find_hard_start_end;
}
if (c >= '!' && c <= '~') goto buffer_find_hard_start_end;
if (c == '\t') result.indent_pos += tab_width;
if (c != ' ') result.all_space = 0;
result.indent_pos += 1;
}
}
buffer_find_hard_start_end:
return(result);
}
internal_4tech int
buffer_find_string(Buffer_Type *buffer, int start_pos, int end_pos, char *str, int len, char *spare){
Buffer_Stringify_Type loop;
char *data;
int end, pos;
pos = start_pos;
if (len > 0){
for (loop = buffer_stringify_loop(buffer, start_pos, end_pos - len + 1);
buffer_stringify_good(&loop);
buffer_stringify_next(&loop)){
end = loop.size + loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; pos < end; ++pos){
if (*str == data[pos]){
buffer_stringify(buffer, pos, pos + len, spare);
if (is_match(str, spare, len))
goto buffer_find_string_end;
}
}
}
}
buffer_find_string_end:
if (pos >= end_pos - len + 1) pos = end_pos;
return(pos);
}
internal_4tech int
buffer_rfind_string(Buffer_Type *buffer, int start_pos, char *str, int len, char *spare){
Buffer_Backify_Type loop;
char *data;
int end, size;
int pos;
size = buffer_size(buffer);
pos = start_pos;
if (pos > size - len) pos = size - len;
if (len > 0){
for (loop = buffer_backify_loop(buffer, start_pos, 0);
buffer_backify_good(&loop);
buffer_backify_next(&loop)){
end = loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; pos >= end; --pos){
if (*str == data[pos]){
buffer_stringify(buffer, pos, pos + len, spare);
if (is_match(str, spare, len))
goto buffer_rfind_string_end;
}
}
}
}
buffer_rfind_string_end:
return(pos);
}
internal_4tech int
buffer_find_string_insensitive(Buffer_Type *buffer, int start_pos, int end_pos, char *str, int len, char *spare){
Buffer_Stringify_Type loop;
char *data;
int end, pos;
pos = start_pos;
if (len > 0){
for (loop = buffer_stringify_loop(buffer, start_pos, end_pos - len + 1);
buffer_stringify_good(&loop);
buffer_stringify_next(&loop)){
end = loop.size + loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; pos < end; ++pos){
if (to_upper(*str) == to_upper(data[pos])){
buffer_stringify(buffer, pos, pos + len, spare);
if (is_match_insensitive(str, spare, len))
goto buffer_find_string_end;
}
}
}
}
buffer_find_string_end:
if (pos >= end_pos - len + 1) pos = end_pos;
return(pos);
}
internal_4tech int
buffer_rfind_string_insensitive(Buffer_Type *buffer, int start_pos, char *str, int len, char *spare){
Buffer_Backify_Type loop;
char *data;
int end, size;
int pos;
size = buffer_size(buffer);
pos = start_pos;
if (pos > size - len) pos = size - len;
if (len > 0){
for (loop = buffer_backify_loop(buffer, start_pos, 0);
buffer_backify_good(&loop);
buffer_backify_next(&loop)){
end = loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; pos >= end; --pos){
if (to_upper(*str) == to_upper(data[pos])){
buffer_stringify(buffer, pos, pos + len, spare);
if (is_match_insensitive(str, spare, len))
goto buffer_rfind_string_end;
}
}
}
}
buffer_rfind_string_end:
return(pos);
}
#ifndef NON_ABSTRACT_4TECH
typedef struct Buffer_Measure_Starts{
int i;
int count;
int start;
float width;
} Buffer_Measure_Starts;
#endif
internal_4tech int
buffer_measure_starts_widths_(Buffer_Measure_Starts *state, Buffer_Type *buffer, float *advance_data){
Buffer_Stringify_Type loop;
int *start_ptr, *start_end;
float *width_ptr;
debug_4tech(int widths_max);
debug_4tech(int max);
char *data;
int size, end;
float width;
int start, i;
int result;
char ch;
size = buffer_size(buffer);
debug_4tech(max = buffer->line_max);
debug_4tech(widths_max = buffer->widths_max);
assert_4tech(max == widths_max);
result = 1;
i = state->i;
start = state->start;
width = state->width;
start_ptr = buffer->line_starts + state->count;
width_ptr = buffer->line_widths + state->count;
start_end = buffer->line_starts + buffer->line_max;
for (loop = buffer_stringify_loop(buffer, i, size);
buffer_stringify_good(&loop);
buffer_stringify_next(&loop)){
end = loop.size + loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; i < end; ++i){
ch = data[i];
if (ch == '\n'){
if (start_ptr == start_end) goto buffer_measure_starts_widths_end;
*width_ptr++ = width;
*start_ptr++ = start;
start = i + 1;
width = 0;
}
else{
width += measure_character(advance_data, ch);
}
}
}
assert_4tech(i == size);
if (start_ptr == start_end) goto buffer_measure_starts_widths_end;
*start_ptr++ = start;
*width_ptr++ = 0;
result = 0;
buffer_measure_starts_widths_end:
state->i = i;
state->count = (int)(start_ptr - buffer->line_starts);
state->start = start;
state->width = width;
return(result);
}
internal_4tech int
buffer_measure_starts_zero_widths_(Buffer_Measure_Starts *state, Buffer_Type *buffer){
Buffer_Stringify_Type loop;
int *start_ptr, *start_end;
float *width_ptr;
debug_4tech(int widths_max);
debug_4tech(int max);
char *data;
int size, end;
int start, i;
int result;
char ch;
size = buffer_size(buffer);
debug_4tech(max = buffer->line_max);
debug_4tech(widths_max = buffer->widths_max);
assert_4tech(max == widths_max);
result = 1;
i = state->i;
start = state->start;
start_ptr = buffer->line_starts + state->count;
width_ptr = buffer->line_widths + state->count;
start_end = buffer->line_starts + buffer->line_max;
for (loop = buffer_stringify_loop(buffer, i, size);
buffer_stringify_good(&loop);
buffer_stringify_next(&loop)){
end = loop.size + loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; i < end; ++i){
ch = data[i];
if (ch == '\n'){
if (start_ptr == start_end) goto buffer_measure_starts_zero_widths_end;
*width_ptr++ = 0;
*start_ptr++ = start;
start = i + 1;
}
}
}
assert_4tech(i == size);
if (start_ptr == start_end) goto buffer_measure_starts_zero_widths_end;
*start_ptr++ = start;
*width_ptr++ = 0;
result = 0;
buffer_measure_starts_zero_widths_end:
state->i = i;
state->count = (int)(start_ptr - buffer->line_starts);
state->start = start;
return(result);
}
internal_4tech int
buffer_measure_starts_widths(Buffer_Measure_Starts *state, Buffer_Type *buffer, float *advance_data){
int result;
if (advance_data){
result = buffer_measure_starts_widths_(state, buffer, advance_data);
}
else{
result = buffer_measure_starts_zero_widths_(state, buffer);
}
return(result);
}
internal_4tech void
buffer_remeasure_starts(Buffer_Type *buffer, int line_start, int line_end, int line_shift, int text_shift){
Buffer_Stringify_Type loop;
int *starts;
int line_count;
char *data;
int size, end;
int line_i, char_i, start;
starts = buffer->line_starts;
line_count = buffer->line_count;
assert_4tech(0 <= line_start);
assert_4tech(line_start <= line_end);
assert_4tech(line_end < line_count);
assert_4tech(line_count + line_shift <= buffer->line_max);
++line_end;
if (text_shift != 0){
line_i = line_end;
starts += line_i;
for (; line_i < line_count; ++line_i, ++starts){
*starts += text_shift;
}
starts = buffer->line_starts;
}
if (line_shift != 0){
memmove_4tech(starts + line_end + line_shift, starts + line_end,
sizeof(int)*(line_count - line_end));
line_count += line_shift;
}
line_end += line_shift;
size = buffer_size(buffer);
char_i = starts[line_start];
line_i = line_start;
start = char_i;
for (loop = buffer_stringify_loop(buffer, char_i, size);
buffer_stringify_good(&loop);
buffer_stringify_next(&loop)){
end = loop.size + loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; char_i < end; ++char_i){
if (data[char_i] == '\n'){
starts[line_i++] = start;
start = char_i + 1;
if (line_i >= line_end && start == starts[line_i]) goto buffer_remeasure_starts_end;
}
}
}
if (char_i == size){
starts[line_i++] = start;
}
buffer_remeasure_starts_end:
assert_4tech(line_count >= 1);
buffer->line_count = line_count;
}
internal_4tech void
buffer_remeasure_widths(Buffer_Type *buffer, float *advance_data,
int line_start, int line_end, int line_shift){
Buffer_Stringify_Type loop;
int *starts;
float *widths;
int line_count;
int widths_count;
char *data;
int size, end;
int i, j;
float width;
char ch;
starts = buffer->line_starts;
widths = buffer->line_widths;
line_count = buffer->line_count;
widths_count = buffer->widths_count;
assert_4tech(0 <= line_start);
assert_4tech(line_start <= line_end);
assert_4tech(line_count <= buffer->widths_max);
++line_end;
if (line_shift != 0){
memmove_4tech(widths + line_end + line_shift, widths + line_end,
sizeof(float)*(widths_count - line_end));
}
buffer->widths_count = line_count;
line_end += line_shift;
i = line_start;
j = starts[i];
if (line_end == line_count) size = buffer_size(buffer);
else size = starts[line_end];
width = 0;
for (loop = buffer_stringify_loop(buffer, j, size);
buffer_stringify_good(&loop);
buffer_stringify_next(&loop)){
end = loop.size + loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; j < end; ++j){
ch = data[j];
if (ch == '\n'){
widths[i] = width;
++i;
assert_4tech(j + 1 == starts[i]);
width = 0;
}
else{
width += measure_character(advance_data, ch);
}
}
}
}
#if 0
inline_4tech void
buffer_measure_widths(Buffer_Type *buffer, void *advance_data){
assert_4tech(buffer->line_count >= 1);
buffer_remeasure_widths(buffer, advance_data, 0, buffer->line_count-1, 0);
}
#endif
internal_4tech void
buffer_measure_wrap_y(Buffer_Type *buffer, float *wraps,
float font_height, float max_width){
float *widths;
float y_pos;
int i, line_count;
line_count = buffer->line_count;
widths = buffer->line_widths;
y_pos = 0;
for (i = 0; i < line_count; ++i){
wraps[i] = y_pos;
if (widths[i] == 0) y_pos += font_height;
else y_pos += font_height*ceil_4tech(widths[i]/max_width);
}
}
internal_4tech int
buffer_get_line_index_range(Buffer_Type *buffer, int pos, int l_bound, int u_bound){
int *lines;
int start, end;
int i;
assert_4tech(0 <= l_bound);
assert_4tech(l_bound <= u_bound);
assert_4tech(u_bound <= buffer->line_count);
lines = buffer->line_starts;
assert_4tech(lines != 0);
start = l_bound;
end = u_bound;
for (;;){
i = (start + end) >> 1;
if (lines[i] < pos) start = i;
else if (lines[i] > pos) end = i;
else{
start = i;
break;
}
assert_4tech(start < end);
if (start == end - 1) break;
}
return(start);
}
inline_4tech int
buffer_get_line_index(Buffer_Type *buffer, int pos){
int result = buffer_get_line_index_range(buffer, pos, 0, buffer->line_count);
return(result);
}
#ifndef NON_ABSTRACT_4TECH
internal_4tech int
buffer_get_line_index_from_wrapped_y(float *wraps, float y, float font_height, int l_bound, int u_bound){
int start, end, i, result;
start = l_bound;
end = u_bound;
for (;;){
i = (start + end) / 2;
if (wraps[i]+font_height <= y) start = i;
else if (wraps[i] > y) end = i;
else{
result = i;
break;
}
if (start >= end - 1){
result = start;
break;
}
}
return(result);
}
#endif
#ifndef NON_ABSTRACT_4TECH
typedef struct Seek_State{
Full_Cursor cursor;
Full_Cursor prev_cursor;
} Seek_State;
internal_4tech int
cursor_seek_step(Seek_State *state, Buffer_Seek seek, int xy_seek, float max_width,
float font_height, float *advances, int size, char ch){
Full_Cursor cursor, prev_cursor;
float ch_width;
int result;
float x, px, y;
cursor = state->cursor;
prev_cursor = state->prev_cursor;
result = 1;
prev_cursor = cursor;
switch (ch){
case '\n':
++cursor.line;
cursor.unwrapped_y += font_height;
cursor.wrapped_y += font_height;
cursor.character = 1;
cursor.unwrapped_x = 0;
cursor.wrapped_x = 0;
break;
default:
++cursor.character;
if (ch == '\r') ch_width = *(float*)(advances + '\\') + *(float*)(advances + 'r');
else ch_width = *(float*)(advances + ch);
if (cursor.wrapped_x + ch_width >= max_width){
cursor.wrapped_y += font_height;
cursor.wrapped_x = 0;
prev_cursor = cursor;
}
cursor.unwrapped_x += ch_width;
cursor.wrapped_x += ch_width;
break;
}
++cursor.pos;
if (cursor.pos > size){
cursor = prev_cursor;
result = 0;
goto cursor_seek_step_end;
}
x = y = px = 0;
switch (seek.type){
case buffer_seek_pos:
if (cursor.pos > seek.pos){
cursor = prev_cursor;
result = 0;
goto cursor_seek_step_end;
}break;
case buffer_seek_wrapped_xy:
x = cursor.wrapped_x; px = prev_cursor.wrapped_x;
y = cursor.wrapped_y; break;
case buffer_seek_unwrapped_xy:
x = cursor.unwrapped_x; px = prev_cursor.unwrapped_x;
y = cursor.unwrapped_y; break;
case buffer_seek_line_char:
if (cursor.line == seek.line && cursor.character >= seek.character){
result = 0;
goto cursor_seek_step_end;
}
else if (cursor.line > seek.line){
cursor = prev_cursor;
result = 0;
goto cursor_seek_step_end;
}break;
}
if (xy_seek){
if (y > seek.y){
cursor = prev_cursor;
result = 0;
goto cursor_seek_step_end;
}
if (y > seek.y - font_height && x >= seek.x){
if (!seek.round_down){
if (ch != '\n' && (seek.x - px) < (x - seek.x)) cursor = prev_cursor;
result = 0;
goto cursor_seek_step_end;
}
if (x > seek.x){
cursor = prev_cursor;
result = 0;
goto cursor_seek_step_end;
}
}
}
cursor_seek_step_end:
state->cursor = cursor;
state->prev_cursor = prev_cursor;
return(result);
}
#endif
internal_4tech Full_Cursor
buffer_cursor_seek(Buffer_Type *buffer, Buffer_Seek seek, float max_width,
float font_height, float *advance_data, Full_Cursor cursor){
Buffer_Stringify_Type loop;
char *data;
int size, end;
int i;
int result;
Seek_State state;
int xy_seek;
state.cursor = cursor;
switch(seek.type){
case buffer_seek_pos:
if (cursor.pos >= seek.pos) goto buffer_cursor_seek_end;
break;
case buffer_seek_wrapped_xy:
if (seek.x == 0 && cursor.wrapped_y >= seek.y) goto buffer_cursor_seek_end;
break;
case buffer_seek_unwrapped_xy:
if (seek.x == 0 && cursor.unwrapped_y >= seek.y) goto buffer_cursor_seek_end;
break;
case buffer_seek_line_char:
if (cursor.line >= seek.line && cursor.character >= seek.character) goto buffer_cursor_seek_end;
break;
}
if (advance_data){
size = buffer_size(buffer);
xy_seek = (seek.type == buffer_seek_wrapped_xy || seek.type == buffer_seek_unwrapped_xy);
result = 1;
i = cursor.pos;
for (loop = buffer_stringify_loop(buffer, i, size);
buffer_stringify_good(&loop);
buffer_stringify_next(&loop)){
end = loop.size + loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (; i < end; ++i){
result = cursor_seek_step(&state, seek, xy_seek, max_width,
font_height, advance_data, size, data[i]);
if (!result) goto buffer_cursor_seek_end;
}
}
if (result){
result = cursor_seek_step(&state, seek, xy_seek, max_width,
font_height, advance_data, size, 0);
assert_4tech(result == 0);
}
}
buffer_cursor_seek_end:
return(state.cursor);
}
internal_4tech Full_Cursor
buffer_cursor_from_pos(Buffer_Type *buffer, int pos, float *wraps,
float max_width, float font_height, float *advance_data){
Full_Cursor result;
int line_index;
if (pos > buffer->size) pos = buffer->size;
if (pos < 0) pos = 0;
line_index = buffer_get_line_index_range(buffer, pos, 0, buffer->line_count);
result = make_cursor_hint(line_index, buffer->line_starts, wraps, font_height);
result = buffer_cursor_seek(buffer, seek_pos(pos), max_width, font_height,
advance_data, result);
return(result);
}
internal_4tech Full_Cursor
buffer_cursor_from_line_character(Buffer_Type *buffer, int line, int character, float *wraps,
float max_width, float font_height, float *advance_data){
Full_Cursor result;
int line_index;
line_index = line - 1;
if (line_index >= buffer->line_count) line_index = buffer->line_count - 1;
if (line_index < 0) line_index = 0;
result = make_cursor_hint(line_index, buffer->line_starts, wraps, font_height);
result = buffer_cursor_seek(buffer, seek_line_char(line, character),
max_width, font_height, advance_data, result);
return(result);
}
internal_4tech Full_Cursor
buffer_cursor_from_unwrapped_xy(Buffer_Type *buffer, float x, float y, int round_down, float *wraps,
float max_width, float font_height, float *advance_data){
Full_Cursor result;
int line_index;
line_index = (int)(y / font_height);
if (line_index >= buffer->line_count) line_index = buffer->line_count - 1;
if (line_index < 0) line_index = 0;
result = make_cursor_hint(line_index, buffer->line_starts, wraps, font_height);
result = buffer_cursor_seek(buffer, seek_unwrapped_xy(x, y, round_down),
max_width, font_height, advance_data, result);
return(result);
}
internal_4tech Full_Cursor
buffer_cursor_from_wrapped_xy(Buffer_Type *buffer, float x, float y, int round_down, float *wraps,
float max_width, float font_height, float *advance_data){
Full_Cursor result;
int line_index;
line_index = buffer_get_line_index_from_wrapped_y(wraps, y, font_height, 0, buffer->line_count);
result = make_cursor_hint(line_index, buffer->line_starts, wraps, font_height);
result = buffer_cursor_seek(buffer, seek_wrapped_xy(x, y, round_down),
max_width, font_height, advance_data, result);
return(result);
}
internal_4tech void
buffer_invert_edit_shift(Buffer_Type *buffer, Buffer_Edit edit, Buffer_Edit *inverse, char *strings,
int *str_pos, int max, int shift_amount){
int pos;
int len;
pos = *str_pos;
len = edit.end - edit.start;
assert_4tech(pos >= 0);
assert_4tech(pos + len <= max);
*str_pos = pos + len;
inverse->str_start = pos;
inverse->len = len;
inverse->start = edit.start + shift_amount;
inverse->end = edit.start + edit.len + shift_amount;
buffer_stringify(buffer, edit.start, edit.end, strings + pos);
}
inline_4tech void
buffer_invert_edit(Buffer_Type *buffer, Buffer_Edit edit, Buffer_Edit *inverse, char *strings,
int *str_pos, int max){
buffer_invert_edit_shift(buffer, edit, inverse, strings, str_pos, max, 0);
}
#ifndef NON_ABSTRACT_4TECH
typedef struct Buffer_Invert_Batch{
int i;
int shift_amount;
int len;
} Buffer_Invert_Batch;
#endif
internal_4tech int
buffer_invert_batch(Buffer_Invert_Batch *state, Buffer_Type *buffer, Buffer_Edit *edits, int count,
Buffer_Edit *inverse, char *strings, int *str_pos, int max){
Buffer_Edit *edit, *inv_edit;
int shift_amount;
int result;
int i;
result = 0;
i = state->i;
shift_amount = state->shift_amount;
edit = edits + i;
inv_edit = inverse + i;
for (; i < count; ++i, ++edit, ++inv_edit){
if (*str_pos + edit->end - edit->start <= max){
buffer_invert_edit_shift(buffer, *edit, inv_edit, strings, str_pos, max, shift_amount);
shift_amount += (edit->len - (edit->end - edit->start));
}
else{
result = 1;
state->len = edit->end - edit->start;
}
}
state->i = i;
state->shift_amount = shift_amount;
return(result);
}
struct Buffer_Render_Options{
b8 show_slash_t;
};
internal_4tech Full_Cursor
buffer_get_start_cursor(Buffer_Type *buffer, float *wraps, float scroll_y,
int wrapped, float width, float *advance_data, float font_height){
Full_Cursor result;
if (wrapped){
result = buffer_cursor_from_wrapped_xy(buffer, 0, scroll_y, 0, wraps,
width, font_height, advance_data);
}
else{
result = buffer_cursor_from_unwrapped_xy(buffer, 0, scroll_y, 0, wraps,
width, font_height, advance_data);
}
return(result);
}
#define BRFlag_Special_Character (1 << 0)
typedef struct Buffer_Render_Item{
int index;
unsigned short glyphid;
unsigned short flags;
float x0, y0;
float x1, y1;
} Buffer_Render_Item;
inline_4tech void
write_render_item(Buffer_Render_Item *item,
int index,
unsigned short glyphid,
float x, float y,
float w, float h){
item->index = index;
item->glyphid = glyphid;
item->x0 = x;
item->y0 = y;
item->x1 = x + w;
item->y1 = y + h;
}
inline_4tech float
write_render_item_inline(Buffer_Render_Item *item,
int index,
unsigned short glyphid,
float x, float y,
float *advance_data, float h){
float ch_width;
ch_width = measure_character(advance_data, (char)glyphid);
write_render_item(item, index, glyphid, x, y, ch_width, h);
return(ch_width);
}
internal_4tech void
buffer_get_render_data(Buffer_Type *buffer, Buffer_Render_Item *items, int max, int *count,
float port_x, float port_y,
float scroll_x, float scroll_y, Full_Cursor start_cursor,
int wrapped,
float width, float height,
float *advance_data, float font_height,
Buffer_Render_Options opts){
Buffer_Stringify_Type loop;
Buffer_Render_Item *item;
Buffer_Render_Item *item_end;
char *data;
int size, end;
float shift_x, shift_y;
float x, y;
int i, item_i;
float ch_width, ch_width_sub;
char ch;
size = buffer_size(buffer);
shift_x = port_x - scroll_x;
shift_y = port_y - scroll_y;
if (wrapped) shift_y += start_cursor.wrapped_y;
else shift_y += start_cursor.unwrapped_y;
x = shift_x;
y = shift_y;
item_i = 0;
item = items + item_i;
item_end = items + max;
// TODO(allen): What's the plan for when there is not enough space to store
// more render items? It seems like we should be able to use the view_x
// to skip items that are not in view right? That way I think it would
// just always fit in the buffer.
if (advance_data){
for (loop = buffer_stringify_loop(buffer, start_cursor.pos, size);
buffer_stringify_good(&loop) && item < item_end;
buffer_stringify_next(&loop)){
end = loop.size + loop.absolute_pos;
data = loop.data - loop.absolute_pos;
for (i = loop.absolute_pos; i < end; ++i){
ch = data[i];
ch_width = measure_character(advance_data, ch);
if (ch_width + x > width + shift_x && wrapped && ch != '\n'){
x = shift_x;
y += font_height;
}
if (y > height + shift_y) goto buffer_get_render_data_end;
switch (ch){
case '\n':
if (item < item_end){
write_render_item_inline(item, i, ' ', x, y, advance_data, font_height);
item->flags = 0;
++item_i;
++item;
x = shift_x;
y += font_height;
}
break;
case 0:
if (item < item_end){
ch_width = write_render_item_inline(item, i, '\\', x, y, advance_data, font_height);
item->flags = BRFlag_Special_Character;
++item_i;
++item;
x += ch_width;
if (item < item_end){
ch_width = write_render_item_inline(item, i, '0', x, y, advance_data, font_height);
item->flags = BRFlag_Special_Character;
++item_i;
++item;
x += ch_width;
}
}
break;
case '\r':
if (item < item_end){
ch_width = write_render_item_inline(item, i, '\\', x, y, advance_data, font_height);
item->flags = BRFlag_Special_Character;
++item_i;
++item;
x += ch_width;
if (item < item_end){
ch_width = write_render_item_inline(item, i, 'r', x, y, advance_data, font_height);
item->flags = BRFlag_Special_Character;
++item_i;
++item;
x += ch_width;
}
}
break;
case '\t':
if (opts.show_slash_t){
if (item < item_end){
ch_width_sub = write_render_item_inline(item, i, '\\', x, y, advance_data, font_height);
item->flags = BRFlag_Special_Character;
++item_i;
++item;
if (item < item_end){
write_render_item_inline(item, i, 't', x + ch_width_sub, y, advance_data, font_height);
item->flags = BRFlag_Special_Character;
++item_i;
++item;
}
}
}
else{
if (item < item_end){
write_render_item_inline(item, i, ' ', x, y, advance_data, font_height);
item->flags = 0;
++item_i;
++item;
}
}
x += ch_width;
break;
default:
if (item < item_end){
write_render_item(item, i, ch, x, y, ch_width, font_height);
item->flags = 0;
++item_i;
++item;
x += ch_width;
}
break;
}
if (y > height + shift_y) goto buffer_get_render_data_end;
}
}
buffer_get_render_data_end:
if (y <= height + shift_y || item == items){
if (item < item_end){
ch = 0;
ch_width = measure_character(advance_data, ' ');
write_render_item(item, size, ch, x, y, ch_width, font_height);
++item_i;
++item;
x += ch_width;
}
}
}
else{
if (item < item_end){
ch = 0;
ch_width = 0;
write_render_item(item, size, ch, x, y, ch_width, font_height);
++item_i;
++item;
x += ch_width;
}
}
// TODO(allen): handle this with a control state
assert_4tech(item_i <= max);
*count = item_i;
}
#ifndef NON_ABSTRACT_4TECH
#define NON_ABSTRACT_4TECH 1
#endif
// BOTTOM
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