summaryrefslogtreecommitdiff
path: root/ide-autocomplete.c
diff options
context:
space:
mode:
Diffstat (limited to 'ide-autocomplete.c')
-rw-r--r--ide-autocomplete.c545
1 files changed, 545 insertions, 0 deletions
diff --git a/ide-autocomplete.c b/ide-autocomplete.c
new file mode 100644
index 0000000..f1c3c13
--- /dev/null
+++ b/ide-autocomplete.c
@@ -0,0 +1,545 @@
+#define TAGS_MAX_COMPLETIONS 200 // max # of tag completions to scroll through
+#define AUTOCOMPLETE_NCOMPLETIONS_VISIBLE 10 // max # of completions to show at once
+
+static void autocomplete_clear_completions(Ted *ted) {
+ Autocomplete *ac = &ted->autocomplete;
+ arr_foreach_ptr(ac->completions, Autocompletion, completion) {
+ free(completion->label);
+ free(completion->text);
+ free(completion->filter);
+ free(completion->detail);
+ free(completion->documentation);
+ }
+ arr_clear(ac->completions);
+ arr_clear(ac->suggested);
+}
+
+// do the actual completion
+static void autocomplete_complete(Ted *ted, Autocompletion completion) {
+ TextBuffer *buffer = ted->active_buffer;
+ buffer_start_edit_chain(buffer); // don't merge with other edits
+ if (is_word(buffer_char_before_cursor(buffer)))
+ buffer_backspace_words_at_cursor(buffer, 1); // delete whatever text was already typed
+ buffer_insert_utf8_at_cursor(buffer, completion.text);
+ buffer_end_edit_chain(buffer);
+ autocomplete_close(ted);
+}
+
+static void autocomplete_select_cursor_completion(Ted *ted) {
+ Autocomplete *ac = &ted->autocomplete;
+ if (ac->open) {
+ size_t nsuggestions = arr_len(ac->suggested);
+ if (nsuggestions) {
+ i64 cursor = mod_i64(ac->cursor, (i64)nsuggestions);
+ autocomplete_complete(ted, ac->completions[ac->suggested[cursor]]);
+ autocomplete_close(ted);
+ }
+ }
+}
+
+static void autocomplete_correct_scroll(Ted *ted) {
+ Autocomplete *ac = &ted->autocomplete;
+ i32 scroll = ac->scroll;
+ scroll = min_i32(scroll, (i32)arr_len(ac->suggested) - AUTOCOMPLETE_NCOMPLETIONS_VISIBLE);
+ scroll = max_i32(scroll, 0);
+ ac->scroll = scroll;
+}
+
+void autocomplete_scroll(Ted *ted, i32 by) {
+ Autocomplete *ac = &ted->autocomplete;
+ ac->scroll += by;
+ autocomplete_correct_scroll(ted);
+}
+
+static void autocomplete_move_cursor(Ted *ted, i32 by) {
+ Autocomplete *ac = &ted->autocomplete;
+ u32 ncompletions = arr_len(ac->suggested);
+ if (ncompletions == 0)
+ return;
+ i32 cursor = ac->cursor;
+ cursor += by;
+ cursor = (i32)mod_i32(cursor, (i32)ncompletions);
+ ac->cursor = cursor;
+ ac->scroll = ac->cursor - AUTOCOMPLETE_NCOMPLETIONS_VISIBLE / 2;
+ autocomplete_correct_scroll(ted);
+}
+
+static void autocomplete_next(Ted *ted) {
+ autocomplete_move_cursor(ted, 1);
+}
+
+static void autocomplete_prev(Ted *ted) {
+ autocomplete_move_cursor(ted, -1);
+}
+
+void autocomplete_close(Ted *ted) {
+ Autocomplete *ac = &ted->autocomplete;
+ if (ac->open) {
+ ac->open = false;
+ ac->waiting_for_lsp = false;
+ autocomplete_clear_completions(ted);
+ }
+}
+
+void autocomplete_update_suggested(Ted *ted) {
+ Autocomplete *ac = &ted->autocomplete;
+ arr_clear(ac->suggested);
+ char *word = str32_to_utf8_cstr(
+ buffer_word_at_cursor(ted->active_buffer)
+ );
+ for (u32 i = 0; i < arr_len(ac->completions); ++i) {
+ Autocompletion *completion = &ac->completions[i];
+ if (str_has_prefix(completion->filter, word))
+ arr_add(ac->suggested, i); // suggest this one
+ }
+ free(word);
+}
+
+static bool autocomplete_using_lsp(Ted *ted) {
+ return ted->active_buffer && buffer_lsp(ted->active_buffer) != NULL;
+}
+
+static void autocomplete_no_suggestions(Ted *ted) {
+ Autocomplete *ac = &ted->autocomplete;
+ if (ac->trigger == TRIGGER_INVOKED)
+ ted->cursor_error_time = time_get_seconds();
+ autocomplete_close(ted);
+}
+
+static void autocomplete_send_completion_request(Ted *ted, TextBuffer *buffer, BufferPos pos, uint32_t trigger) {
+ LSP *lsp = buffer_lsp(buffer);
+ Autocomplete *ac = &ted->autocomplete;
+
+ LSPRequest request = {
+ .type = LSP_REQUEST_COMPLETION
+ };
+
+ LSPCompletionTriggerKind lsp_trigger = LSP_TRIGGER_CHARACTER;
+ switch (trigger) {
+ case TRIGGER_INVOKED: lsp_trigger = LSP_TRIGGER_INVOKED; break;
+ case TRIGGER_INCOMPLETE: lsp_trigger = LSP_TRIGGER_INCOMPLETE; break;
+ }
+
+ request.data.completion = (LSPRequestCompletion) {
+ .position = {
+ .document = lsp_document_id(lsp, buffer->filename),
+ .pos = buffer_pos_to_lsp_position(buffer, pos)
+ },
+ .context = {
+ .trigger_kind = lsp_trigger,
+ .trigger_character = {0},
+ }
+ };
+ if (trigger < UNICODE_CODE_POINTS)
+ unicode_utf32_to_utf8(request.data.completion.context.trigger_character, trigger);
+ if (lsp_send_request(lsp, &request)) {
+ ac->waiting_for_lsp = true;
+ ac->lsp_request_time = ted->frame_time;
+ // *technically sepaking* this can mess things up if a complete
+ // list arrives only after the user has typed some stuff
+ // (in that case we'll send a TriggerKind = incomplete request even though it makes no sense).
+ // but i don't think any servers will have a problem with that.
+ ac->is_list_complete = false;
+ }
+}
+
+static void autocomplete_find_completions(Ted *ted, uint32_t trigger) {
+ Autocomplete *ac = &ted->autocomplete;
+ TextBuffer *buffer = ted->active_buffer;
+ BufferPos pos = buffer->cursor_pos;
+ if (buffer_pos_eq(pos, ac->last_pos))
+ return; // no need to update completions.
+ ac->trigger = trigger;
+ ac->last_pos = pos;
+
+ LSP *lsp = buffer_lsp(buffer);
+ if (lsp) {
+ if (ac->is_list_complete && trigger == TRIGGER_INCOMPLETE) {
+ // the list of completions we got from the LSP server is complete,
+ // so we just need to call autocomplete_update_suggested,
+ // we don't need to send a new request.
+ } else {
+ autocomplete_send_completion_request(ted, buffer, pos, trigger);
+ }
+ } else {
+ // tag completion
+ autocomplete_clear_completions(ted);
+
+ char *word_at_cursor = str32_to_utf8_cstr(buffer_word_at_cursor(buffer));
+ char **completions = calloc(TAGS_MAX_COMPLETIONS, sizeof *completions);
+ u32 ncompletions = (u32)tags_beginning_with(ted, word_at_cursor, completions, TAGS_MAX_COMPLETIONS);
+ free(word_at_cursor);
+
+ arr_set_len(ac->completions, ncompletions);
+
+ for (size_t i = 0; i < ncompletions; ++i) {
+ ac->completions[i].label = completions[i];
+ ac->completions[i].text = str_dup(completions[i]);
+ ac->completions[i].filter = str_dup(completions[i]);
+ arr_add(ac->suggested, (u32)i);
+ }
+ free(completions);
+
+ // if we got the full list of tags beginning with `word_at_cursor`,
+ // then we don't need to call `tags_beginning_with` again.
+ ac->is_list_complete = ncompletions == TAGS_MAX_COMPLETIONS;
+ }
+
+ autocomplete_update_suggested(ted);
+}
+
+static SymbolKind lsp_completion_kind_to_ted(LSPCompletionKind kind) {
+ switch (kind) {
+ case LSP_COMPLETION_TEXT:
+ case LSP_COMPLETION_MODULE:
+ case LSP_COMPLETION_UNIT:
+ case LSP_COMPLETION_COLOR:
+ case LSP_COMPLETION_FILE:
+ case LSP_COMPLETION_REFERENCE:
+ case LSP_COMPLETION_FOLDER:
+ case LSP_COMPLETION_OPERATOR:
+ return SYMBOL_OTHER;
+
+ case LSP_COMPLETION_METHOD:
+ case LSP_COMPLETION_FUNCTION:
+ case LSP_COMPLETION_CONSTRUCTOR:
+ return SYMBOL_FUNCTION;
+
+ case LSP_COMPLETION_FIELD:
+ case LSP_COMPLETION_PROPERTY:
+ return SYMBOL_FIELD;
+
+ case LSP_COMPLETION_VARIABLE:
+ return SYMBOL_VARIABLE;
+
+ case LSP_COMPLETION_CLASS:
+ case LSP_COMPLETION_INTERFACE:
+ case LSP_COMPLETION_ENUM:
+ case LSP_COMPLETION_STRUCT:
+ case LSP_COMPLETION_EVENT:
+ case LSP_COMPLETION_TYPEPARAMETER:
+ return SYMBOL_TYPE;
+
+ case LSP_COMPLETION_VALUE:
+ case LSP_COMPLETION_ENUMMEMBER:
+ case LSP_COMPLETION_CONSTANT:
+ return SYMBOL_CONSTANT;
+
+ case LSP_COMPLETION_KEYWORD:
+ case LSP_COMPLETION_SNIPPET:
+ return SYMBOL_KEYWORD;
+ }
+ assert(0);
+ return SYMBOL_OTHER;
+}
+
+
+static void autocomplete_process_lsp_response(Ted *ted, const LSPResponse *response) {
+ const LSPRequest *request = &response->request;
+ if (request->type != LSP_REQUEST_COMPLETION)
+ return;
+
+ Autocomplete *ac = &ted->autocomplete;
+ ac->waiting_for_lsp = false;
+ if (!ac->open) {
+ // user hit escape or down or something before completions arrived.
+ return;
+ }
+
+
+ const LSPResponseCompletion *completion = &response->data.completion;
+ size_t ncompletions = arr_len(completion->items);
+ arr_set_len(ac->completions, ncompletions);
+ for (size_t i = 0; i < ncompletions; ++i) {
+ const LSPCompletionItem *lsp_completion = &completion->items[i];
+ Autocompletion *ted_completion = &ac->completions[i];
+ ted_completion->label = str_dup(lsp_response_string(response, lsp_completion->label));
+ ted_completion->filter = str_dup(lsp_response_string(response, lsp_completion->filter_text));
+ // NOTE: here we don't deal with snippets.
+ // right now we are sending "snippetSupport: false" in the capabilities,
+ // so this should be okay.
+ ted_completion->text = str_dup(lsp_response_string(response, lsp_completion->text_edit.new_text));
+ const char *detail = lsp_response_string(response, lsp_completion->detail);
+ ted_completion->detail = *detail ? str_dup(detail) : NULL;
+ ted_completion->kind = lsp_completion_kind_to_ted(lsp_completion->kind);
+ ted_completion->deprecated = lsp_completion->deprecated;
+ const char *documentation = lsp_response_string(response, lsp_completion->documentation);
+ ted_completion->documentation = *documentation ? str_dup(documentation) : NULL;
+
+ }
+ ac->is_list_complete = completion->is_complete;
+
+ autocomplete_update_suggested(ted);
+ switch (arr_len(ac->suggested)) {
+ case 0:
+ autocomplete_no_suggestions(ted);
+ return;
+ case 1:
+ // if autocomplete was invoked by Ctrl+Space, and there's only one completion, select it.
+ if (ac->trigger == TRIGGER_INVOKED)
+ autocomplete_complete(ted, ac->completions[ac->suggested[0]]);
+ return;
+ }
+}
+
+// open autocomplete
+// trigger should either be a character (e.g. '.') or one of the TRIGGER_* constants.
+static void autocomplete_open(Ted *ted, uint32_t trigger) {
+ Autocomplete *ac = &ted->autocomplete;
+ if (ac->open) return;
+ if (!ted->active_buffer) return;
+ TextBuffer *buffer = ted->active_buffer;
+ if (!buffer->filename) return;
+ if (buffer->view_only) return;
+
+ ted->cursor_error_time = 0;
+ ac->last_pos = (BufferPos){0,0};
+ ac->cursor = 0;
+ autocomplete_find_completions(ted, trigger);
+
+ switch (arr_len(ac->completions)) {
+ case 0:
+ if (autocomplete_using_lsp(ted)) {
+ ac->open = true;
+ } else {
+ autocomplete_no_suggestions(ted);
+ }
+ break;
+ case 1:
+ autocomplete_complete(ted, ac->completions[0]);
+ // (^ this calls autocomplete_close)
+ break;
+ default:
+ // open autocomplete menu
+ ac->open = true;
+ break;
+ }
+}
+
+static char symbol_kind_icon(SymbolKind k) {
+ switch (k) {
+ case SYMBOL_FUNCTION:
+ return 'f';
+ case SYMBOL_FIELD:
+ return 'm';
+ case SYMBOL_TYPE:
+ return 't';
+ case SYMBOL_CONSTANT:
+ return 'c';
+ case SYMBOL_VARIABLE:
+ return 'v';
+ case SYMBOL_KEYWORD:
+ case SYMBOL_OTHER:
+ return ' ';
+ }
+ assert(0);
+ return ' ';
+}
+
+static void autocomplete_frame(Ted *ted) {
+ Autocomplete *ac = &ted->autocomplete;
+ if (!ac->open) return;
+
+ TextBuffer *buffer = ted->active_buffer;
+ Font *font = ted->font;
+ float char_height = text_font_char_height(font);
+ Settings const *settings = buffer_settings(buffer);
+ u32 const *colors = settings->colors;
+ float const padding = settings->padding;
+
+ autocomplete_find_completions(ted, TRIGGER_INCOMPLETE);
+
+ size_t ncompletions = arr_len(ac->suggested);
+
+ if (ac->waiting_for_lsp && ncompletions == 0) {
+ struct timespec now = ted->frame_time;
+ if (timespec_sub(now, ac->lsp_request_time) < 0.2) {
+ // don't show "Loading..." unless we've actually been loading for a bit of time
+ return;
+ }
+ }
+
+ if (!ac->waiting_for_lsp && ncompletions == 0) {
+ // no completions. close menu.
+ autocomplete_close(ted);
+ return;
+ }
+
+ ac->cursor = ncompletions ? (i32)mod_i64(ac->cursor, (i64)ncompletions) : 0;
+
+ autocomplete_correct_scroll(ted);
+ i32 scroll = ac->scroll;
+ u32 ncompletions_visible = min_u32((u32)ncompletions, AUTOCOMPLETE_NCOMPLETIONS_VISIBLE);
+
+ float menu_width = 400, menu_height = (float)ncompletions_visible * char_height;
+
+ if (ac->waiting_for_lsp && ncompletions == 0) {
+ menu_height = 200.f;
+ }
+
+ v2 cursor_pos = buffer_pos_to_pixels(buffer, buffer->cursor_pos);
+ bool open_up = cursor_pos.y > 0.5f * (buffer->y1 + buffer->y2); // should the completion menu open upwards?
+ bool open_left = cursor_pos.x > 0.5f * (buffer->x1 + buffer->x2);
+ float x = cursor_pos.x, start_y = cursor_pos.y;
+ if (open_left) x -= menu_width;
+ if (open_up)
+ start_y -= menu_height;
+ else
+ start_y += char_height; // put menu below cursor
+ {
+ Rect menu_rect = rect(V2(x, start_y), V2(menu_width, menu_height));
+ gl_geometry_rect(menu_rect, colors[COLOR_AUTOCOMPLETE_BG]);
+ gl_geometry_rect_border(menu_rect, 1, colors[COLOR_AUTOCOMPLETE_BORDER]);
+ ac->rect = menu_rect;
+ }
+
+ i32 mouse_entry = scroll + (i32)((ted->mouse_pos.y - start_y) / char_height);
+
+ Autocompletion *document = NULL;
+ if (ncompletions) {
+ assert(ac->cursor >= 0 && ac->cursor < (i32)ncompletions);
+ // highlight cursor entry
+ Rect r = rect(V2(x, start_y + (float)(ac->cursor - scroll) * char_height), V2(menu_width, char_height));
+ if (rect_contains_point(ac->rect, rect_center(r))) {
+ gl_geometry_rect(r, colors[COLOR_AUTOCOMPLETE_HL]);
+ document = &ac->completions[ac->suggested[ac->cursor]];
+ }
+ }
+ if (mouse_entry >= 0 && mouse_entry < (i32)ncompletions
+ && rect_contains_point(ac->rect, ted->mouse_pos)) {
+ // highlight moused over entry
+ Rect r = rect(V2(x, start_y + (float)(mouse_entry - scroll) * char_height), V2(menu_width, char_height));
+ gl_geometry_rect(r, colors[COLOR_AUTOCOMPLETE_HL]);
+ ted->cursor = ted->cursor_hand;
+ document = &ac->completions[ac->suggested[mouse_entry]];
+ }
+
+ float border_thickness = settings->border_thickness;
+
+
+ if (document && document->documentation) {
+ // document that entry!!
+
+ // we've got some wacky calculations to figure out the
+ // bounding rect for the documentation
+ float doc_width = open_left ? ac->rect.pos.x - 2*padding
+ : buffer->x2 - (ac->rect.pos.x + ac->rect.size.x + 2*padding);
+ if (doc_width > 800) doc_width = 800;
+ float doc_height = buffer->y2 - (ac->rect.pos.y + 2*padding);
+ if (doc_height > char_height * 20) doc_height = char_height * 20;
+
+ // if the rect is too small, there's no point in showing it
+ if (doc_width >= 200) {
+ float doc_x = open_left ? ac->rect.pos.x - doc_width - padding
+ : ac->rect.pos.x + ac->rect.size.x + padding;
+ float doc_y = ac->rect.pos.y;
+ Rect r = rect(V2(doc_x, doc_y), V2(doc_width, doc_height));
+ gl_geometry_rect(r, colors[COLOR_AUTOCOMPLETE_BG]);
+ gl_geometry_rect_border(r, border_thickness, colors[COLOR_AUTOCOMPLETE_BORDER]);
+
+ // draw the text!
+ TextRenderState text_state = text_render_state_default;
+ text_state.min_x = doc_x + padding;
+ text_state.max_x = doc_x + doc_width - padding;
+ text_state.max_y = doc_y + doc_height;
+ text_state.x = doc_x + padding;
+ text_state.y = doc_y + padding;
+ text_state.wrap = true;
+ rgba_u32_to_floats(colors[COLOR_TEXT], text_state.color);
+ text_utf8_with_state(font, &text_state, document->documentation);
+ }
+ }
+
+
+ for (uint i = 0; i < ted->nmouse_clicks[SDL_BUTTON_LEFT]; ++i) {
+ v2 click = ted->mouse_clicks[SDL_BUTTON_LEFT][i];
+ if (rect_contains_point(ac->rect, click)) {
+ i32 entry = scroll + (i32)((click.y - start_y) / char_height);
+ if (entry >= 0 && entry < (i32)ncompletions) {
+ // entry was clicked on! use this completion.
+ autocomplete_complete(ted, ac->completions[ac->suggested[entry]]);
+ return;
+ }
+ }
+ }
+
+ float y = start_y;
+ TextRenderState state = text_render_state_default;
+ state.min_x = x + padding; state.min_y = y; state.max_x = x + menu_width - padding; state.max_y = y + menu_height;
+ rgba_u32_to_floats(colors[COLOR_TEXT], state.color);
+
+ if (ac->waiting_for_lsp && ncompletions == 0) {
+ state.x = x + padding; state.y = y;
+ text_utf8_with_state(font, &state, "Loading...");
+ } else {
+ for (size_t i = 0; i < ncompletions_visible; ++i) {
+ const Autocompletion *completion = &ac->completions[ac->suggested[(i32)i + scroll]];
+
+ state.x = x; state.y = y;
+ if (i != ncompletions_visible-1) {
+ gl_geometry_rect(rect(V2(x, y + char_height),
+ V2(menu_width, border_thickness)),
+ colors[COLOR_AUTOCOMPLETE_BORDER]);
+ }
+
+ ColorSetting label_color = color_for_symbol_kind(completion->kind);
+ if (!settings->syntax_highlighting)
+ label_color = COLOR_TEXT;
+
+ rgba_u32_to_floats(colors[label_color], state.color);
+
+ // draw icon
+ char icon_text[2] = {symbol_kind_icon(completion->kind), 0};
+ state.x += padding;
+ text_utf8_with_state(font, &state, icon_text);
+ state.x += padding;
+ gl_geometry_rect(rect(V2((float)state.x, (float)state.y), V2(border_thickness, char_height)),
+ colors[COLOR_AUTOCOMPLETE_BORDER]);
+ state.x += padding;
+
+ float label_x = (float)state.x;
+ text_utf8_with_state(font, &state, completion->label);
+
+ const char *detail = completion->detail;
+ if (detail) {
+ double label_end_x = state.x;
+
+ char show_text[128] = {0};
+
+ int amount_detail = 0;
+ for (; ; ++amount_detail) {
+ if (unicode_is_continuation_byte((u8)detail[amount_detail]))
+ continue; // don't cut off text in the middle of a code point.
+
+ char text[128] = {0};
+ strbuf_printf(text, "%.*s%s", amount_detail, detail,
+ (size_t)amount_detail == strlen(detail) ? "" : "...");
+ double width = text_get_size_v2(font, text).x;
+ if (label_end_x + width + 2 * padding < state.max_x) {
+ strbuf_cpy(show_text, text);
+ }
+ // don't break if not, since we want to use "blabla"
+ // even if "blabl..." is too long
+
+ if (!detail[amount_detail]) break;
+ }
+ if (amount_detail >= 3) {
+ //rgba_u32_to_floats(colors[COLOR_COMMENT], state.color);
+ text_utf8_anchored(font, show_text, state.max_x, state.y,
+ colors[COLOR_COMMENT], ANCHOR_TOP_RIGHT);
+ }
+ }
+
+ if (completion->deprecated) {
+ gl_geometry_rect(rect(V2(label_x, y + (char_height - border_thickness) * 0.5f),
+ V2((float)state.x - label_x, 1)),
+ colors[label_color]);
+ }
+
+ y += char_height;
+ }
+ }
+
+ gl_geometry_draw();
+ text_render(font);
+}