// TOP #include "4coder_default_include.cpp" #include "4coder_function_list.cpp" #define NO_BINDING #include "4coder_default_bindings.cpp" #ifndef BIND_4CODER_TESTS # define BIND_4CODER_TESTS(context) ((void)context) #endif #include "4coder_miblo_numbers.cpp" #include static float get_line_y(Application_Links *app, View_Summary *view, int32_t line){ Full_Cursor cursor = {0}; view_compute_cursor(app, view, seek_line_char(line, 1), &cursor); float y = cursor.wrapped_y; if (view->unwrapped_lines){ y = cursor.unwrapped_y; } return(y); } CUSTOM_COMMAND_SIG(kill_rect){ View_Summary view = get_active_view(app, AccessOpen); Buffer_Summary buffer = get_buffer(app, view.buffer_id, AccessOpen); i32_Rect rect = get_line_x_rect(&view); bool32 unwrapped = view.unwrapped_lines; for (int32_t line = rect.y1; line >= rect.y0; --line){ int32_t start = 0; int32_t end = 0; bool32 success = 1; Full_Cursor cursor = {0}; float y = get_line_y(app, &view, line); if (success){ success = view_compute_cursor(app, &view, seek_xy((float)rect.x0, y, 0, unwrapped), &cursor); } start = cursor.pos; if (success){ success = view_compute_cursor(app, &view, seek_xy((float)rect.x1, y, 0, unwrapped), &cursor); } end = cursor.pos; if (success){ buffer_replace_range(app, &buffer, start, end, 0, 0); } } } static void pad_buffer_line(Application_Links *app, Partition *part, Buffer_Summary *buffer, int32_t line, char padchar, int32_t target){ Partial_Cursor start = {0}; Partial_Cursor end = {0}; if (buffer_compute_cursor(app, buffer, seek_line_char(line, 1), &start)){ if (buffer_compute_cursor(app, buffer, seek_line_char(line, 65536), &end)){ if (start.line == line){ if (end.character-1 < target){ Temp_Memory temp = begin_temp_memory(part); int32_t size = target - (end.character-1); char *str = push_array(part, char, size); memset(str, ' ', size); buffer_replace_range(app, buffer, end.pos, end.pos, str, size); end_temp_memory(temp); } } } } } /* NOTE(allen): Things I learned from this experiment. First of all the batch edits aren't too bad, but I think there could be a single system that I run that through that knows how to build the batch edit from slightly higher level information. For instance the idea in point 2. Secondly I definitely believe I need some sort of "mini-buffer" concept where a view sends commands so that things like pasting still work. Then the contents of the "mini-buffer" can be used to complete the edits at all cursor points. This doesn't answer all questions, because somehow backspace still wants to work for multi-lines even when the "mini-buffer" is emtpy. Such a system would also make it possible to send paste commands and cursor navigation to interactive bars. Thirdly any system like this will probably not want to operate through the co-routine system, because that makes sending these commands to the "mini-buffer" much more difficult. Fourthly I desperately need some way to do multi-highlighting multi-cursor showing but it is unclear to me how to do that conveniently. Since this won't exist inside a coroutine what does such an API even look like??? It's clear to me now that I may need to start pushing for the view routine before I am even able to support the GUI. Because that will the system up to allow me to think about the problem in more ways. Finally I have decided not to pursue this direction any more, it just seems like the wrong way to do it, so I'll stop without doing multi-cursor for now. */ CUSTOM_COMMAND_SIG(multi_line_edit){ Partition *part = &global_part; View_Summary view = get_active_view(app, AccessOpen); Buffer_Summary buffer = get_buffer(app, view.buffer_id, AccessOpen); Buffer_Rect rect = get_rect(&view); int32_t start_line = view.cursor.line; int32_t pos = view.cursor.character-1; for (int32_t i = rect.line0; i <= rect.line1; ++i){ pad_buffer_line(app, &global_part, &buffer, i, ' ', pos); } int32_t line_count = rect.line1 - rect.line0 + 1; for (;;){ User_Input in = get_user_input(app, EventOnAnyKey, EventOnEsc | EventOnButton); if (in.abort) break; if (in.key.character && key_is_unmodified(&in.key)){ char str = (char)in.key.character; Temp_Memory temp = begin_temp_memory(part); Buffer_Edit *edit = push_array(part, Buffer_Edit, line_count); Buffer_Edit *edits = edit; for (int32_t i = rect.line0; i <= rect.line1; ++i){ Partial_Cursor cursor = {0}; if (buffer_compute_cursor(app, &buffer, seek_line_char(i, pos+1), &cursor)){ edit->str_start = 0; edit->len = 1; edit->start = cursor.pos; edit->end = cursor.pos; ++edit; } } int32_t edit_count = (int)(edit - edits); buffer_batch_edit(app, &buffer, &str, 1, edits, edit_count, BatchEdit_Normal); end_temp_memory(temp); ++pos; view_set_cursor(app, &view, seek_line_char(start_line, pos+1), true); } else if (in.key.keycode == key_back){ if (pos > 0){ Temp_Memory temp = begin_temp_memory(part); Buffer_Edit *edit = push_array(part, Buffer_Edit, line_count); Buffer_Edit *edits = edit; for (int32_t i = rect.line0; i <= rect.line1; ++i){ Partial_Cursor cursor = {0}; if (buffer_compute_cursor(app, &buffer, seek_line_char(i, pos+1), &cursor)){ edit->str_start = 0; edit->len = 0; edit->start = cursor.pos-1; edit->end = cursor.pos; ++edit; } } int32_t edit_count = (int)(edit - edits); buffer_batch_edit(app, &buffer, 0, 0, edits, edit_count, BatchEdit_Normal); end_temp_memory(temp); --pos; } } else{ break; } } } // // Scope-Smart Editing Basics // enum{ FindScope_Parent = 0x1, FindScope_NextSibling = 0x1, FindScope_EndOfToken = 0x2, }; static bool32 find_scope_top(Application_Links *app, Buffer_Summary *buffer, int32_t start_pos, uint32_t flags, int32_t *end_pos_out){ Cpp_Get_Token_Result get_result = {0}; bool32 success = 0; int32_t position = 0; if (buffer_get_token_index(app, buffer, start_pos, &get_result)){ int32_t token_index = get_result.token_index; if (flags & FindScope_Parent){ --token_index; if (get_result.in_whitespace){ ++token_index; } } if (token_index >= 0){ static const int32_t chunk_cap = 512; Cpp_Token chunk[chunk_cap]; Stream_Tokens stream = {0}; if (init_stream_tokens(&stream, app, buffer, token_index, chunk, chunk_cap)){int32_t nest_level = 0; bool32 still_looping = 0; do{ for (; token_index >= stream.start; --token_index){ Cpp_Token *token = &stream.tokens[token_index]; switch (token->type){ case CPP_TOKEN_BRACE_OPEN: { if (nest_level == 0){ success = 1; position = token->start; if (flags & FindScope_EndOfToken){ position += token->size; } goto finished; } else{ --nest_level; } }break; case CPP_TOKEN_BRACE_CLOSE: { ++nest_level; }break; } } still_looping = backward_stream_tokens(&stream); }while(still_looping); } } } finished:; *end_pos_out = position; return(success); } static bool32 find_scope_bottom(Application_Links *app, Buffer_Summary *buffer, int32_t start_pos, uint32_t flags, int32_t *end_pos_out){ Cpp_Get_Token_Result get_result = {0}; bool32 success = 0; int32_t position = 0; if (buffer_get_token_index(app, buffer, start_pos, &get_result)){ int32_t token_index = get_result.token_index+1; if (flags & FindScope_Parent){ --token_index; if (get_result.in_whitespace){ ++token_index; } } if (token_index >= 0){ static const int32_t chunk_cap = 512; Cpp_Token chunk[chunk_cap]; Stream_Tokens stream = {0}; if (init_stream_tokens(&stream, app, buffer, token_index, chunk, chunk_cap)){ int32_t nest_level = 0; bool32 still_looping = 0; do{ for (; token_index < stream.end; ++token_index){ Cpp_Token *token = &stream.tokens[token_index]; switch (token->type){ case CPP_TOKEN_BRACE_OPEN: { ++nest_level; }break; case CPP_TOKEN_BRACE_CLOSE: { if (nest_level == 0){ success = 1; position = token->start; if (flags & FindScope_EndOfToken){ position += token->size; } goto finished; } else{ --nest_level; } }break; } } still_looping = forward_stream_tokens(&stream); }while(still_looping); } } } finished:; *end_pos_out = position; return(success); } static bool32 find_next_scope(Application_Links *app, Buffer_Summary *buffer, int32_t start_pos, uint32_t flags, int32_t *end_pos_out){ Cpp_Get_Token_Result get_result = {0}; bool32 success = 0; int32_t position = 0; if (buffer_get_token_index(app, buffer, start_pos, &get_result)){ int32_t token_index = get_result.token_index+1; if (token_index >= 0){ static const int32_t chunk_cap = 512; Cpp_Token chunk[chunk_cap]; Stream_Tokens stream = {0}; if (init_stream_tokens(&stream, app, buffer, token_index, chunk, chunk_cap)){ if (flags & FindScope_NextSibling){ int32_t nest_level = 1; bool32 still_looping = 0; do{ for (; token_index < stream.end; ++token_index){ Cpp_Token *token = &stream.tokens[token_index]; switch (token->type){ case CPP_TOKEN_BRACE_OPEN: { if (nest_level == 0){ success = 1; position = token->start; if (flags & FindScope_EndOfToken){ position += token->size; } goto finished; } else{ ++nest_level; } }break; case CPP_TOKEN_BRACE_CLOSE: { --nest_level; if (nest_level == -1){ position = start_pos; goto finished; } }break; } } still_looping = forward_stream_tokens(&stream); }while(still_looping); } else{ bool32 still_looping = 0; do{ for (; token_index < stream.end; ++token_index){ Cpp_Token *token = &stream.tokens[token_index]; if (token->type == CPP_TOKEN_BRACE_OPEN){ success = 1; position = token->start; if (flags & FindScope_EndOfToken){ position += token->size; } goto finished; } } still_looping = forward_stream_tokens(&stream); }while(still_looping); } } } } finished:; *end_pos_out = position; return(success); } static bool32 find_prev_scope(Application_Links *app, Buffer_Summary *buffer, int32_t start_pos, uint32_t flags, int32_t *end_pos_out){ Cpp_Get_Token_Result get_result = {0}; bool32 success = 0; int32_t position = 0; if (buffer_get_token_index(app, buffer, start_pos, &get_result)){ int32_t token_index = get_result.token_index-1; if (token_index >= 0){ static const int32_t chunk_cap = 512; Cpp_Token chunk[chunk_cap]; Stream_Tokens stream = {0}; if (init_stream_tokens(&stream, app, buffer, token_index, chunk, chunk_cap)){ if (flags & FindScope_NextSibling){ int32_t nest_level = -1; bool32 still_looping = 0; do{ for (; token_index >= stream.start; --token_index){ Cpp_Token *token = &stream.tokens[token_index]; switch (token->type){ case CPP_TOKEN_BRACE_OPEN: { if (nest_level == -1){ position = start_pos; goto finished; } else if (nest_level == 0){ success = 1; position = token->start; if (flags & FindScope_EndOfToken){ position += token->size; } goto finished; } else{ --nest_level; } }break; case CPP_TOKEN_BRACE_CLOSE: { ++nest_level; }break; } } still_looping = backward_stream_tokens(&stream); }while(still_looping); } else{ bool32 still_looping = 0; do{ for (; token_index >= stream.start; --token_index){ Cpp_Token *token = &stream.tokens[token_index]; if (token->type == CPP_TOKEN_BRACE_OPEN){ success = 1; position = token->start; if (flags & FindScope_EndOfToken){ position += token->size; } goto finished; } } still_looping = backward_stream_tokens(&stream); }while(still_looping); } } } } finished:; *end_pos_out = position; return(success); } static void view_set_to_region(Application_Links *app, View_Summary *view, int32_t major_pos, int32_t minor_pos, float normalized_threshold){ Range range = make_range(major_pos, minor_pos); bool32 bottom_major = false; if (major_pos == range.max){ bottom_major = true; } Full_Cursor top, bottom; if (view_compute_cursor(app, view, seek_pos(range.min), &top)){ if (view_compute_cursor(app, view, seek_pos(range.max), &bottom)){ float top_y = top.wrapped_y; float bottom_y = bottom.wrapped_y; if (view->unwrapped_lines){ top_y = top.unwrapped_y; bottom_y = bottom.unwrapped_y; } GUI_Scroll_Vars scroll = view->scroll_vars; float half_view_height = .5f*(float)(view->file_region.y1 - view->file_region.y0); float threshold = normalized_threshold * half_view_height; float current_center_y = ((float)scroll.target_y) + half_view_height; if (top_y < current_center_y - threshold || bottom_y > current_center_y + threshold){ float center_target_y = .5f*(top_y + bottom_y); if (bottom_major){ if (center_target_y < bottom_y - half_view_height * .9f){ center_target_y = bottom_y - half_view_height * .9f; } } else{ if (center_target_y > top_y + half_view_height * .9f){ center_target_y = top_y + half_view_height * .9f; } } float target_y = center_target_y - half_view_height; if (target_y < 0){ target_y = 0; } scroll.target_y = (int32_t)(target_y); view_set_scroll(app, view, scroll); } } } } static float scope_center_threshold = 0.75f; CUSTOM_COMMAND_SIG(highlight_surroundng_scope){ uint32_t access = AccessProtected; View_Summary view = get_active_view(app, access); Buffer_Summary buffer = get_buffer(app, view.buffer_id, access); int32_t start_pos = view.cursor.pos; int32_t top = 0, bottom = 0; if (find_scope_top(app, &buffer, start_pos, FindScope_Parent, &top)){ view_set_cursor(app, &view, seek_pos(top), true); if (find_scope_bottom(app, &buffer, start_pos, FindScope_Parent | FindScope_EndOfToken, &bottom)){ view_set_mark(app, &view, seek_pos(bottom)); view_set_to_region(app, &view, top, bottom, scope_center_threshold); } else{ view_set_to_region(app, &view, top, top, scope_center_threshold); } } } // TODO(allen): These aren't super top notch yet (the ones about children and siblings). I am not sure I want them around anyway, because it's not that fluid feeling even when it works. CUSTOM_COMMAND_SIG(highlight_first_child_scope){ uint32_t access = AccessProtected; View_Summary view = get_active_view(app, access); Buffer_Summary buffer = get_buffer(app, view.buffer_id, access); int32_t start_pos = view.cursor.pos; int32_t top = 0, bottom = 0; if (find_next_scope(app, &buffer, start_pos, 0, &top)){ if (find_scope_bottom(app, &buffer, top, FindScope_EndOfToken, &bottom)){ view_set_cursor(app, &view, seek_pos(top), true); view_set_mark(app, &view, seek_pos(bottom)); view_set_to_region(app, &view, top, bottom, scope_center_threshold); } } } CUSTOM_COMMAND_SIG(highlight_next_sibling_scope){ uint32_t access = AccessProtected; View_Summary view = get_active_view(app, access); Buffer_Summary buffer = get_buffer(app, view.buffer_id, access); int32_t start_pos = view.cursor.pos; int32_t top = 0, bottom = 0; if (find_next_scope(app, &buffer, start_pos, FindScope_NextSibling, &top)){ if (find_scope_bottom(app, &buffer, top, FindScope_EndOfToken, &bottom)){ view_set_cursor(app, &view, seek_pos(top), true); view_set_mark(app, &view, seek_pos(bottom)); view_set_to_region(app, &view, top, bottom, scope_center_threshold); } } } CUSTOM_COMMAND_SIG(highlight_prev_sibling_scope){ uint32_t access = AccessProtected; View_Summary view = get_active_view(app, access); Buffer_Summary buffer = get_buffer(app, view.buffer_id, access); int32_t start_pos = view.cursor.pos; int32_t top = 0, bottom = 0; if (find_prev_scope(app, &buffer, start_pos, FindScope_NextSibling, &top)){ if (find_scope_bottom(app, &buffer, top, FindScope_EndOfToken, &bottom)){ view_set_cursor(app, &view, seek_pos(top), true); view_set_mark(app, &view, seek_pos(bottom)); view_set_to_region(app, &view, top, bottom, scope_center_threshold); } } } CUSTOM_COMMAND_SIG(highlight_next_scope_absolute){ uint32_t access = AccessProtected; View_Summary view = get_active_view(app, access); Buffer_Summary buffer = get_buffer(app, view.buffer_id, access); int32_t start_pos = view.cursor.pos; int32_t top = 0, bottom = 0; if (find_next_scope(app, &buffer, start_pos, 0, &top)){ if (find_scope_bottom(app, &buffer, top, FindScope_EndOfToken, &bottom)){ view_set_cursor(app, &view, seek_pos(top), true); view_set_mark(app, &view, seek_pos(bottom)); view_set_to_region(app, &view, top, bottom, scope_center_threshold); } } } CUSTOM_COMMAND_SIG(highlight_prev_scope_absolute){ uint32_t access = AccessProtected; View_Summary view = get_active_view(app, access); Buffer_Summary buffer = get_buffer(app, view.buffer_id, access); int32_t start_pos = view.cursor.pos; int32_t top = 0, bottom = 0; if (find_prev_scope(app, &buffer, start_pos, 0, &top)){ if (find_scope_bottom(app, &buffer, top, FindScope_EndOfToken, &bottom)){ view_set_cursor(app, &view, seek_pos(top), true); view_set_mark(app, &view, seek_pos(bottom)); view_set_to_region(app, &view, top, bottom, scope_center_threshold); } } } CUSTOM_COMMAND_SIG(place_in_scope){ uint32_t access = AccessOpen; View_Summary view = get_active_view(app, access); Buffer_Summary buffer = get_buffer(app, view.buffer_id, access); Range lines; Range range = get_range(&view); lines.min = buffer_get_line_index(app, &buffer, range.min); range.min = buffer_get_line_start(app, &buffer, lines.min); lines.max = buffer_get_line_index(app, &buffer, range.max); range.max = buffer_get_line_end(app, &buffer, lines.max); bool32 do_full = false; if (lines.min < lines.max){ do_full = true; } else if (!buffer_line_is_blank(app, &buffer, lines.min)){ do_full = true; } if (do_full){ Buffer_Edit edits[2]; char str[5] = "{\n\n}"; int32_t min_adjustment = 0; int32_t max_adjustment = 4; if (buffer_line_is_blank(app, &buffer, lines.min)){ str[0] = '\n'; str[1] = '{'; ++min_adjustment; } if (buffer_line_is_blank(app, &buffer, lines.max)){ str[2] = '}'; str[3] = '\n'; --max_adjustment; } int32_t min_pos = range.min + min_adjustment; int32_t max_pos = range.max + max_adjustment; int32_t cursor_pos = min_pos; int32_t mark_pos = max_pos; if (view.cursor.pos > view.mark.pos){ cursor_pos = max_pos; mark_pos = min_pos; } edits[0].str_start = 0; edits[0].len = 2; edits[0].start = range.min; edits[0].end = range.min; edits[1].str_start = 2; edits[1].len = 2; edits[1].start = range.max; edits[1].end = range.max; buffer_batch_edit(app, &buffer, str, 4, edits, 2, BatchEdit_Normal); view_set_cursor(app, &view, seek_pos(cursor_pos), true); view_set_mark(app, &view, seek_pos(mark_pos)); } else{ buffer_replace_range(app, &buffer, range.min, range.max, "{\n\n}", 4); view_set_cursor(app, &view, seek_pos(range.min + 2), true); view_set_mark(app, &view, seek_pos(range.min + 2)); } } // NOTE(allen): Some basic code manipulation ideas. CUSTOM_COMMAND_SIG(rename_parameter){ uint32_t access = AccessOpen; View_Summary view = get_active_view(app, access); Buffer_Summary buffer = get_buffer(app, view.buffer_id, access); Partition *part = &global_part; Temp_Memory temp = begin_temp_memory(part); Cpp_Get_Token_Result result; if (buffer_get_token_index(app, &buffer, view.cursor.pos, &result)){ if (!result.in_whitespace){ static const int32_t stream_space_size = 512; Cpp_Token stream_space[stream_space_size]; Stream_Tokens stream = {0}; if (init_stream_tokens(&stream, app, &buffer, result.token_index, stream_space, stream_space_size)){ int32_t token_index = result.token_index; Cpp_Token token = stream.tokens[token_index]; if (token.type == CPP_TOKEN_IDENTIFIER){ char old_lexeme_base[128]; String old_lexeme = make_fixed_width_string(old_lexeme_base); if (token.size < sizeof(old_lexeme_base)){ Cpp_Token original_token = token; old_lexeme.size = token.size; buffer_read_range(app, &buffer, token.start, token.start+token.size, old_lexeme.str); int32_t proc_body_found = 0; bool32 still_looping = 0; ++token_index; do{ for (; token_index < stream.end; ++token_index){ Cpp_Token *token_ptr = stream.tokens + token_index; switch (token_ptr->type){ case CPP_TOKEN_BRACE_OPEN: { proc_body_found = 1; goto doublebreak; }break; case CPP_TOKEN_BRACE_CLOSE: case CPP_TOKEN_PARENTHESE_OPEN: { goto doublebreak; }break; } } still_looping = forward_stream_tokens(&stream); }while(still_looping); doublebreak:; if (proc_body_found){ Query_Bar with; char with_space[1024]; with.prompt = make_lit_string("New Name: "); with.string = make_fixed_width_string(with_space); if (!query_user_string(app, &with)) return; String replace_string = with.string; Buffer_Edit *edits = (Buffer_Edit*)partition_current(part); int32_t edit_max = (partition_remaining(part))/sizeof(Buffer_Edit); int32_t edit_count = 0; if (edit_max >= 1){ Buffer_Edit edit; edit.str_start = 0; edit.len = replace_string.size; edit.start = original_token.start; edit.end = original_token.start + original_token.size; edits[edit_count] = edit; ++edit_count; } int32_t nesting_level = 0; int32_t closed_correctly = 0; ++token_index; still_looping = 0; do{ for (; token_index < stream.end; ++token_index){ Cpp_Token *token_ptr = stream.tokens + token_index; switch (token_ptr->type){ case CPP_TOKEN_IDENTIFIER: { if (token_ptr->size == old_lexeme.size){ char other_lexeme_base[128]; String other_lexeme = make_fixed_width_string(other_lexeme_base); other_lexeme.size = old_lexeme.size; buffer_read_range(app, &buffer, token_ptr->start, token_ptr->start+token_ptr->size, other_lexeme.str); if (match(old_lexeme, other_lexeme)){ Buffer_Edit edit; edit.str_start = 0; edit.len = replace_string.size; edit.start = token_ptr->start; edit.end = token_ptr->start + token_ptr->size; if (edit_count < edit_max){ edits[edit_count] = edit; ++edit_count; } else{ goto doublebreak2; } } } }break; case CPP_TOKEN_BRACE_OPEN: { ++nesting_level; }break; case CPP_TOKEN_BRACE_CLOSE: { if (nesting_level == 0){ closed_correctly = 1; goto doublebreak2; } else{ --nesting_level; } }break; } } still_looping = forward_stream_tokens(&stream); }while(still_looping); doublebreak2:; if (closed_correctly){ buffer_batch_edit(app, &buffer, replace_string.str, replace_string.size, edits, edit_count, BatchEdit_Normal); } } } } } } } end_temp_memory(temp); } CUSTOM_COMMAND_SIG(write_explicit_enum_values){ uint32_t access = AccessOpen; View_Summary view = get_active_view(app, access); Buffer_Summary buffer = get_buffer(app, view.buffer_id, access); Partition *part = &global_part; Temp_Memory temp = begin_temp_memory(part); Cpp_Get_Token_Result result; if (buffer_get_token_index(app, &buffer, view.cursor.pos, &result)){ if (!result.in_whitespace){ Cpp_Token stream_space[32]; Stream_Tokens stream = {0}; if (init_stream_tokens(&stream, app, &buffer, result.token_index, stream_space, 32)){ int32_t token_index = result.token_index; Cpp_Token token = stream.tokens[token_index]; if (token.type == CPP_TOKEN_BRACE_OPEN){ ++token_index; int32_t closed_correctly = 0; int32_t seeker_index = token_index; Stream_Tokens seek_stream = begin_temp_stream_token(&stream); int32_t still_looping = 0; do{ for (; seeker_index < stream.end; ++seeker_index){ Cpp_Token *token_seeker = stream.tokens + seeker_index; switch (token_seeker->type){ case CPP_TOKEN_BRACE_CLOSE: closed_correctly = 1; goto finished_seek; case CPP_TOKEN_BRACE_OPEN: goto finished_seek; } } still_looping = forward_stream_tokens(&stream); }while(still_looping); finished_seek:; end_temp_stream_token(&stream, seek_stream); if (closed_correctly){ int32_t count_estimate = 1 + (seeker_index - token_index)/2; Buffer_Edit *edits = push_array(part, Buffer_Edit, count_estimate); int32_t edit_count = 0; char *string_base = (char*)partition_current(part); String string = make_string(string_base, 0, partition_remaining(part)); int32_t value = 0; closed_correctly = 0; still_looping = 0; do{ for (;token_index < stream.end; ++token_index){ Cpp_Token *token_ptr = stream.tokens + token_index; switch (token_ptr->type){ case CPP_TOKEN_IDENTIFIER: { int32_t edit_start = token_ptr->start + token_ptr->size; int32_t edit_stop = edit_start; int32_t edit_is_good = 0; ++token_index; do{ for (; token_index < stream.end; ++token_index){ token_ptr = stream.tokens + token_index; switch (token_ptr->type){ case CPP_TOKEN_COMMA: { edit_stop = token_ptr->start; edit_is_good = 1; goto good_edit; }break; case CPP_TOKEN_BRACE_CLOSE: { edit_stop = token_ptr->start; closed_correctly = 1; edit_is_good = 1; goto good_edit; }break; } } still_looping = forward_stream_tokens(&stream); }while(still_looping); good_edit:; if (edit_is_good){ int32_t str_pos = string.size; append(&string, " = "); append_int_to_str(&string, value); if (closed_correctly){ append(&string, "\n"); } ++value; int32_t str_size = string.size - str_pos; Buffer_Edit edit; edit.str_start = str_pos; edit.len = str_size; edit.start = edit_start; edit.end = edit_stop; assert(edit_count < count_estimate); edits[edit_count] = edit; ++edit_count; } if (!edit_is_good || closed_correctly){ goto finished; } }break; case CPP_TOKEN_BRACE_CLOSE: { closed_correctly = 1; goto finished; }break; } } still_looping = forward_stream_tokens(&stream); }while(still_looping); finished:; if (closed_correctly){ buffer_batch_edit(app, &buffer, string_base, string.size, edits, edit_count, BatchEdit_Normal); } } } } } } end_temp_memory(temp); } extern "C" int32_t get_bindings(void *data, int32_t size){ Bind_Helper context_ = begin_bind_helper(data, size); Bind_Helper *context = &context_; set_hook(context, hook_start, my_start); set_hook(context, hook_view_size_change, my_view_adjust); set_open_file_hook(context, my_file_settings); set_save_file_hook(context, my_file_save); set_input_filter(context, my_suppress_mouse_filter); set_command_caller(context, default_command_caller); set_scroll_rule(context, smooth_scroll_rule); default_keys(context); // NOTE(allen|a4.0.6): Command maps can be opened more than // once so that you can extend existing maps very easily. // You can also use the helper "restart_map" instead of // begin_map to clear everything that was in the map and // bind new things instead. begin_map(context, mapid_global); end_map(context); begin_map(context, mapid_file); bind(context, 'k', MDFR_ALT, kill_rect); bind(context, ' ', MDFR_ALT | MDFR_CTRL, multi_line_edit); bind(context, key_page_up, MDFR_ALT, miblo_increment_time_stamp); bind(context, key_page_down, MDFR_ALT, miblo_decrement_time_stamp); bind(context, key_home, MDFR_ALT, miblo_increment_time_stamp_minute); bind(context, key_end, MDFR_ALT, miblo_decrement_time_stamp_minute); end_map(context); begin_map(context, my_code_map); bind(context, '[', MDFR_ALT, highlight_surroundng_scope); bind(context, ']', MDFR_ALT, highlight_prev_scope_absolute); bind(context, '\'', MDFR_ALT, highlight_next_scope_absolute); bind(context, key_insert, MDFR_CTRL, write_explicit_enum_values); bind(context, 'p', MDFR_ALT, rename_parameter); bind(context, 'I', MDFR_CTRL, list_all_functions_current_buffer); end_map(context); BIND_4CODER_TESTS(context); int32_t result = end_bind_helper(context); return(result); } // BOTTOM