static WarnUnusedResult bool lsp_expect_type(LSP *lsp, JSONValue value, JSONValueType type, const char *what) { if (value.type != type) { lsp_set_error(lsp, "Expected %s for %s, got %s", json_type_to_str(type), what, json_type_to_str(value.type)); return false; } return true; } static WarnUnusedResult bool lsp_expect_object(LSP *lsp, JSONValue value, const char *what) { return lsp_expect_type(lsp, value, JSON_OBJECT, what); } static WarnUnusedResult bool lsp_expect_array(LSP *lsp, JSONValue value, const char *what) { return lsp_expect_type(lsp, value, JSON_ARRAY, what); } static WarnUnusedResult bool lsp_expect_string(LSP *lsp, JSONValue value, const char *what) { return lsp_expect_type(lsp, value, JSON_STRING, what); } static WarnUnusedResult bool lsp_expect_number(LSP *lsp, JSONValue value, const char *what) { return lsp_expect_type(lsp, value, JSON_NUMBER, what); } static LSPString lsp_response_add_json_string(LSPResponse *response, const JSON *json, JSONString string) { u32 offset = arr_len(response->string_data); arr_set_len(response->string_data, offset + string.len + 1); json_string_get(json, string, response->string_data + offset, string.len + 1); return (LSPString){ .offset = offset }; } static int completion_qsort_cmp(void *context, const void *av, const void *bv) { const LSPResponse *response = context; const LSPCompletionItem *a = av, *b = bv; const char *a_sort_text = lsp_response_string(response, a->sort_text); const char *b_sort_text = lsp_response_string(response, b->sort_text); int sort_text_cmp = strcmp(a_sort_text, b_sort_text); if (sort_text_cmp != 0) return sort_text_cmp; // for some reason, rust-analyzer outputs identical sortTexts // i have no clue what that means. // the LSP "specification" is not very specific. // we'll sort by label in this case. // this is what VSCode seems to do. // i hate microsofot. const char *a_label = lsp_response_string(response, a->label); const char *b_label = lsp_response_string(response, b->label); return strcmp(a_label, b_label); } static bool parse_position(LSP *lsp, const JSON *json, JSONValue pos_value, LSPPosition *pos) { if (!lsp_expect_object(lsp, pos_value, "document position")) return false; JSONObject pos_object = pos_value.val.object; JSONValue line = json_object_get(json, pos_object, "line"); JSONValue character = json_object_get(json, pos_object, "character"); if (!lsp_expect_number(lsp, line, "document line number") || !lsp_expect_number(lsp, character, "document column number")) return false; pos->line = (u32)line.val.number; pos->character = (u32)character.val.number; return true; } static bool parse_range(LSP *lsp, const JSON *json, JSONValue range_value, LSPRange *range) { if (!lsp_expect_object(lsp, range_value, "document range")) return false; JSONObject range_object = range_value.val.object; JSONValue start = json_object_get(json, range_object, "start"); JSONValue end = json_object_get(json, range_object, "end"); bool success = parse_position(lsp, json, start, &range->start) && parse_position(lsp, json, end, &range->end); if (!success) memset(range, 0, sizeof *range); return success; } static bool parse_document_uri(LSP *lsp, const JSON *json, JSONValue value, LSPDocumentID *id) { if (!lsp_expect_string(lsp, value, "URI")) return false; char *string = json_string_get_alloc(json, value.val.string); if (!str_has_prefix(string, "file://")) { lsp_set_error(lsp, "Can't process non-local URI %s", string); free(string); return false; } *id = lsp_document_id(lsp, string + strlen("file://")); free(string); return true; } static uint32_t *parse_trigger_characters(const JSON *json, JSONArray trigger_chars) { uint32_t *array = NULL; arr_reserve(array, trigger_chars.len); for (u32 i = 0; i < trigger_chars.len; ++i) { char character[8] = {0}; json_string_get(json, json_array_get_string(json, trigger_chars, i), character, sizeof character); if (*character) { // the fact that they're called "trigger characters" makes // me think multi-character triggers aren't allowed // even though that would be nice in some languages, // e.g. "::" char32_t c = 0; unicode_utf8_to_utf32(&c, character, strlen(character)); if (c) arr_add(array, c); } } return array; } static void parse_capabilities(LSP *lsp, const JSON *json, JSONObject capabilities) { LSPCapabilities *cap = &lsp->capabilities; // check CompletionOptions JSONValue completion_value = json_object_get(json, capabilities, "completionProvider"); if (completion_value.type == JSON_OBJECT) { cap->completion_support = true; JSONObject completion = completion_value.val.object; JSONArray trigger_chars = json_object_get_array(json, completion, "triggerCharacters"); lsp->completion_trigger_chars = parse_trigger_characters(json, trigger_chars); } // check SignatureHelpOptions JSONValue signature_help_value = json_object_get(json, capabilities, "signatureHelpProvider"); if (signature_help_value.type == JSON_OBJECT) { cap->signature_help_support = true; JSONObject signature_help = signature_help_value.val.object; JSONArray trigger_chars = json_object_get_array(json, signature_help, "triggerCharacters"); lsp->signature_help_trigger_chars = parse_trigger_characters(json, trigger_chars); JSONArray retrigger_chars = json_object_get_array(json, signature_help, "retriggerCharacters"); lsp->signature_help_retrigger_chars = parse_trigger_characters(json, retrigger_chars); // rust-analyzer doesn't have ) or > as a retrigger char which is really weird arr_add(lsp->signature_help_retrigger_chars, ')'); arr_add(lsp->signature_help_retrigger_chars, '>'); } // check for hover support JSONValue hover_value = json_object_get(json, capabilities, "hoverProvider"); if (hover_value.type != JSON_UNDEFINED) { cap->hover_support = true; } // check for definition support JSONValue definition_value = json_object_get(json, capabilities, "definitionProvider"); if (definition_value.type != JSON_UNDEFINED) { cap->definition_support = true; } // check for textDocument/rename support JSONValue rename_value = json_object_get(json, capabilities, "renameProvider"); if (rename_value.type != JSON_UNDEFINED) { cap->rename_support = true; } // check for workspace/symbol support JSONValue workspace_symbol_value = json_object_get(json, capabilities, "workspaceSymbolProvider"); if (workspace_symbol_value.type != JSON_UNDEFINED) { cap->workspace_symbols_support = true; } JSONObject workspace = json_object_get_object(json, capabilities, "workspace"); // check WorkspaceFoldersServerCapabilities JSONObject workspace_folders = json_object_get_object(json, workspace, "workspaceFolders"); if (json_object_get_bool(json, workspace_folders, "supported", false)) { cap->workspace_folders_support = true; } } static JSONString get_markup_content(const JSON *json, JSONValue markup_value) { // some fields are of type string | MarkupContent (e.g. completion documentation) // this converts either one to a string. if (markup_value.type == JSON_STRING) { return markup_value.val.string; } else if (markup_value.type == JSON_OBJECT) { return json_object_get_string(json, markup_value.val.object, "value"); } else { return (JSONString){0}; } } static bool parse_text_edit(LSP *lsp, LSPResponse *response, const JSON *json, JSONValue value, LSPTextEdit *edit) { JSONObject object = json_force_object(value); JSONValue range = json_object_get(json, object, "range"); if (!parse_range(lsp, json, range, &edit->range)) return false; JSONValue new_text_value = json_object_get(json, object, "newText"); if (!lsp_expect_string(lsp, new_text_value, "completion newText")) return false; edit->new_text = lsp_response_add_json_string(response, json, new_text_value.val.string); return true; } static bool parse_completion(LSP *lsp, const JSON *json, LSPResponse *response) { // deal with textDocument/completion response. // result: CompletionItem[] | CompletionList | null LSPResponseCompletion *completion = &response->data.completion; JSONValue result = json_get(json, "result"); JSONValue items_value = {0}; completion->is_complete = true; // default switch (result.type) { case JSON_NULL: // no completions return true; case JSON_ARRAY: items_value = result; break; case JSON_OBJECT: items_value = json_object_get(json, result.val.object, "items"); completion->is_complete = !json_object_get_bool(json, result.val.object, "isIncomplete", false); break; default: lsp_set_error(lsp, "Weird result type for textDocument/completion response: %s.", json_type_to_str(result.type)); break; } if (!lsp_expect_array(lsp, items_value, "completion list")) return false; JSONArray items = items_value.val.array; arr_set_len(completion->items, items.len); for (u32 item_idx = 0; item_idx < items.len; ++item_idx) { LSPCompletionItem *item = &completion->items[item_idx]; JSONValue item_value = json_array_get(json, items, item_idx); if (!lsp_expect_object(lsp, item_value, "completion list")) return false; JSONObject item_object = item_value.val.object; JSONValue label_value = json_object_get(json, item_object, "label"); if (!lsp_expect_string(lsp, label_value, "completion label")) return false; JSONString label = label_value.val.string; item->label = lsp_response_add_json_string(response, json, label); // defaults item->sort_text = item->label; item->filter_text = item->label; item->edit_type = LSP_COMPLETION_EDIT_PLAIN; item->at_cursor = true; item->text_edit = (LSPTextEdit) { .range = {{0}, {0}}, .new_text = item->label }; double kind = json_object_get_number(json, item_object, "kind"); if (isfinite(kind) && kind >= LSP_COMPLETION_KIND_MIN && kind <= LSP_COMPLETION_KIND_MAX) { item->kind = (LSPCompletionKind)kind; } JSONString sort_text = json_object_get_string(json, item_object, "sortText"); if (sort_text.pos) { // LSP allows using a different string for sorting. item->sort_text = lsp_response_add_json_string(response, json, sort_text); } JSONValue deprecated = json_object_get(json, item_object, "deprecated"); if (deprecated.type == JSON_TRUE) { item->deprecated = true; } JSONArray tags = json_object_get_array(json, item_object, "tags"); for (u32 i = 0; i < tags.len; ++i) { double tag = json_array_get_number(json, tags, i); if (tag == LSP_SYMBOL_TAG_DEPRECATED) { item->deprecated = true; } } JSONString filter_text = json_object_get_string(json, item_object, "filterText"); if (filter_text.pos) { // LSP allows using a different string for filtering. item->filter_text = lsp_response_add_json_string(response, json, filter_text); } double edit_type = json_object_get_number(json, item_object, "insertTextFormat"); if (!isnan(edit_type)) { if (edit_type != LSP_COMPLETION_EDIT_PLAIN && edit_type != LSP_COMPLETION_EDIT_SNIPPET) { // maybe in the future more edit types will be added. // probably they'll have associated capabilities, but I think it's best to just ignore unrecognized types debug_println("Bad InsertTextFormat: %g", edit_type); edit_type = LSP_COMPLETION_EDIT_PLAIN; } item->edit_type = (LSPCompletionEditType)edit_type; } JSONValue documentation_value = json_object_get(json, item_object, "documentation"); JSONString documentation = get_markup_content(json, documentation_value); if (documentation.len) { if (documentation.len > 1000) { // rust has some docs which are *20,000* bytes long // that's more than i'm ever gonna show on-screen! documentation.len = 1000; // okay this could break mid-code-point but whatever it would probably // just display ⌷. } item->documentation = lsp_response_add_json_string(response, json, documentation); } JSONString detail_text = json_object_get_string(json, item_object, "detail"); if (detail_text.pos) { item->detail = lsp_response_add_json_string(response, json, detail_text); } // @TODO(eventually): additionalTextEdits // (try to find a case where this comes up) // what should happen when this completion is selected? JSONValue text_edit_value = json_object_get(json, item_object, "textEdit"); if (text_edit_value.type == JSON_OBJECT) { item->at_cursor = false; if (!parse_text_edit(lsp, response, json, text_edit_value, &item->text_edit)) return false; } else { // not using textEdit. check insertText. JSONValue insert_text_value = json_object_get(json, item_object, "insertText"); if (insert_text_value.type == JSON_STRING) { // string which will be inserted if this completion is selected item->text_edit.new_text = lsp_response_add_json_string(response, json, insert_text_value.val.string); } } } qsort_with_context(completion->items, items.len, sizeof *completion->items, completion_qsort_cmp, response); return true; } static bool parse_signature_help(LSP *lsp, const JSON *json, LSPResponse *response) { JSONObject result = json_force_object(json_get(json, "result")); //json_debug_print_object(json, result);printf("\n"); LSPResponseSignatureHelp *help = &response->data.signature_help; u32 active_signature = 0; double active_signature_dbl = json_object_get_number(json, result, "activeSignature"); if (isfinite(active_signature_dbl)) active_signature = (u32)active_signature_dbl; double global_active_parameter = json_object_get_number(json, result, "activeParameter"); JSONArray signatures = json_object_get_array(json, result, "signatures"); if (active_signature >= signatures.len) active_signature = 0; for (u32 s = 0; s < signatures.len; ++s) { // parse SignatureInformation LSPSignatureInformation *signature_out = arr_addp(help->signatures); JSONObject signature_in = json_array_get_object(json, signatures, s); JSONString label = json_object_get_string(json, signature_in, "label"); signature_out->label = lsp_response_add_json_string(response, json, label); size_t label_len_utf16 = unicode_utf16_len(lsp_response_string(response, signature_out->label)); if (label_len_utf16 == (size_t)-1) { lsp_set_error(lsp, "Bad UTF-8 in SignatureInformation.label"); return false; } #if 0 // currently we don't show signature documentation JSONString documentation = get_markup_content(json, json_object_get(json, signature_in, "documentation")); if (documentation.len) signature_out->documentation = lsp_response_add_json_string(response, json, documentation); #endif JSONArray parameters = json_object_get_array(json, signature_in, "parameters"); u32 active_parameter = U32_MAX; double active_parameter_dbl = json_object_get_number(json, signature_in, "activeParameter"); if (isfinite(active_parameter_dbl)) { active_parameter = (u32)active_parameter_dbl; } if (active_parameter == U32_MAX && isfinite(global_active_parameter)) { active_parameter = (u32)global_active_parameter; } if (active_parameter < parameters.len) { JSONObject parameter_info = json_array_get_object(json, parameters, active_parameter); JSONValue parameter_label_value = json_object_get(json, parameter_info, "label"); u16 start = 0, end = 0; // parse the parameter label if (parameter_label_value.type == JSON_ARRAY) { // parameter label is specified as UTF-16 character range JSONArray parameter_label = parameter_label_value.val.array; double start_dbl = json_array_get_number(json, parameter_label, 0); double end_dbl = json_array_get_number(json, parameter_label, 1); if (!(isfinite(start_dbl) && isfinite(end_dbl))) { lsp_set_error(lsp, "Bad contents of ParameterInfo.label array."); return false; } start = (u16)start_dbl; end = (u16)end_dbl; } else if (parameter_label_value.type == JSON_STRING) { // parameter label is specified as substring JSONString parameter_label = parameter_label_value.val.string; char *sig_lbl = json_string_get_alloc(json, label); char *param_lbl = json_string_get_alloc(json, parameter_label); const char *pos = strstr(sig_lbl, param_lbl); if (pos) { start = (u16)(pos - sig_lbl); end = (u16)(start + strlen(param_lbl)); } free(sig_lbl); free(param_lbl); } else { lsp_set_error(lsp, "Bad type for ParameterInfo.label"); return false; } if (start > end || end > label_len_utf16) { lsp_set_error(lsp, "Bad range for ParameterInfo.label: %u-%u within signature label of length %u", start, end, label.len); return false; } signature_out->active_start = start; signature_out->active_end = end; } } if (active_signature != 0) { //make sure active signature is #0 LSPSignatureInformation active = help->signatures[active_signature]; arr_remove(help->signatures, active_signature); arr_insert(help->signatures, 0, active); } return true; } static bool parse_hover(LSP *lsp, const JSON *json, LSPResponse *response) { LSPResponseHover *hover = &response->data.hover; JSONValue result_value = json_get(json, "result"); if (result_value.type == JSON_NULL) return true; // no results if (result_value.type != JSON_OBJECT) { lsp_set_error(lsp, "Bad result type for textDocument/hover response."); return false; } JSONObject result = json_force_object(result_value); JSONValue range = json_object_get(json, result, "range"); parse_range(lsp, json, range, &hover->range); JSONValue contents = json_object_get(json, result, "contents"); switch (contents.type) { case JSON_OBJECT: case JSON_STRING: // all good break; case JSON_ARRAY: { JSONArray contents_array = contents.val.array; if (contents_array.len == 0) { // the server probably should have just returned result: null. // but the spec doesn't seem to forbid this, so we'll handle it. return true; } // it's giving us multiple strings, but we'll just show the first one contents = json_array_get(json, contents_array, 0); } break; default: lsp_set_error(lsp, "Bad contents field on textDocument/hover response."); return false; } // contents should either be a MarkupContent or a MarkedString // i.e. it is either a string or has a member `value: string` JSONString contents_string = {0}; if (contents.type == JSON_STRING) { contents_string = contents.val.string; } else { JSONObject contents_object = json_force_object(contents); JSONValue value = json_object_get(json, contents_object, "value"); if (value.type == JSON_STRING) { contents_string = value.val.string; } else { lsp_set_error(lsp, "Bad contents object in textDocument/hover response."); return false; } } hover->contents = lsp_response_add_json_string(response, json, contents_string); return true; } // parse a Location: {uri: DocumentUri, range: Range} static bool parse_location(LSP *lsp, const JSON *json, JSONValue value, LSPLocation *location) { if (!lsp_expect_object(lsp, value, "Location")) return false; JSONObject object = value.val.object; JSONValue uri = json_object_get(json, object, "uri"); if (!parse_document_uri(lsp, json, uri, &location->document)) return false; JSONValue range = json_object_get(json, object, "range"); if (!parse_range(lsp, json, range, &location->range)) return false; return true; } static bool parse_definition(LSP *lsp, const JSON *json, LSPResponse *response) { JSONValue result = json_get(json, "result"); if (result.type == JSON_NULL) { // no location return true; } LSPResponseDefinition *definition = &response->data.definition; if (result.type == JSON_ARRAY) { JSONArray locations = result.val.array; if (locations.len == 0) return true; for (u32 l = 0; l < locations.len; ++l) { JSONValue location_json = json_array_get(json, locations, l); LSPLocation *location = arr_addp(definition->locations); if (!parse_location(lsp, json, location_json, location)) return false; } return true; } else { LSPLocation *location = arr_addp(definition->locations); return parse_location(lsp, json, result, location); } } // parses SymbolInformation or WorkspaceSymbol static bool parse_symbol_information(LSP *lsp, const JSON *json, JSONValue value, LSPResponse *response, LSPSymbolInformation *info) { if (!lsp_expect_object(lsp, value, "SymbolInformation")) return false; JSONObject object = value.val.object; // parse name JSONValue name_value = json_object_get(json, object, "name"); if (!lsp_expect_string(lsp, name_value, "SymbolInformation.name")) return false; JSONString name = name_value.val.string; info->name = lsp_response_add_json_string(response, json, name); // parse kind JSONValue kind_value = json_object_get(json, object, "kind"); if (!lsp_expect_number(lsp, kind_value, "SymbolInformation.kind")) return false; double kind = kind_value.val.number; if (isfinite(kind) && kind >= LSP_SYMBOL_KIND_MIN && kind <= LSP_SYMBOL_KIND_MAX) info->kind = (LSPSymbolKind)kind; // check if deprecated bool deprecated = json_object_get(json, object, "deprecated").type == JSON_TRUE; JSONArray tags = json_object_get_array(json, object, "tags"); for (size_t i = 0; i < tags.len; ++i) { if (json_array_get_number(json, tags, i) == LSP_SYMBOL_TAG_DEPRECATED) deprecated = true; } info->deprecated = deprecated; // parse location JSONValue location = json_object_get(json, object, "location"); if (!parse_location(lsp, json, location, &info->location)) return false; return true; } static bool parse_workspace_symbols(LSP *lsp, const JSON *json, LSPResponse *response) { LSPResponseWorkspaceSymbols *syms = &response->data.workspace_symbols; JSONArray result = json_force_array(json_get(json, "result")); arr_set_len(syms->symbols, result.len); for (size_t i = 0; i < result.len; ++i) { LSPSymbolInformation *info = &syms->symbols[i]; JSONValue value = json_array_get(json, result, i); if (!parse_symbol_information(lsp, json, value, response, info)) return false; } return true; } // fills request->id/id_string appropriately given the request's json // returns true on success static WarnUnusedResult bool parse_id(const JSON *json, LSPRequest *request) { JSONValue id_value = json_get(json, "id"); switch (id_value.type) { case JSON_NUMBER: { double id = id_value.val.number; if (id == (u32)id) { request->id = (u32)id; return true; } } break; case JSON_STRING: request->id_string = json_string_get_alloc(json, id_value.val.string); return true; default: break; } return false; } // handles window/showMessage, window/logMessage, and window/showMessageRequest parameters static bool parse_window_message(LSP *lsp, const JSON *json, LSPRequestMessage *m) { JSONObject params = json_force_object(json_get(json, "params")); JSONValue type = json_object_get(json, params, "type"); JSONValue message = json_object_get(json, params, "message"); if (!lsp_expect_number(lsp, type, "MessageType")) return false; if (!lsp_expect_string(lsp, message, "message string")) return false; int mtype = (int)type.val.number; if (mtype < 1 || mtype > 4) { lsp_set_error(lsp, "Bad MessageType: %g", type.val.number); return false; } m->type = (LSPWindowMessageType)mtype; m->message = json_string_get_alloc(json, message.val.string); return true; } // returns true if `request` was actually filled with a request. static bool parse_server2client_request(LSP *lsp, JSON *json, LSPRequest *request) { JSONValue method_value = json_get(json, "method"); if (!lsp_expect_string(lsp, method_value, "request method")) return false; char method[64] = {0}; json_string_get(json, method_value.val.string, method, sizeof method); if (streq(method, "window/showMessage")) { request->type = LSP_REQUEST_SHOW_MESSAGE; return parse_window_message(lsp, json, &request->data.message); } else if (streq(method, "window/showMessageRequest")) { // we'll deal with the repsonse right here LSPResponse response = {0}; LSPRequest *r = &response.request; r->type = LSP_REQUEST_SHOW_MESSAGE; if (!parse_id(json, request)) { debug_println("Bad ID in window/showMessageRequest request. This shouldn't happen."); return false; } lsp_send_response(lsp, &response); request->type = LSP_REQUEST_SHOW_MESSAGE; return parse_window_message(lsp, json, &request->data.message); } else if (streq(method, "window/logMessage")) { request->type = LSP_REQUEST_LOG_MESSAGE; return parse_window_message(lsp, json, &request->data.message); } else if (streq(method, "workspace/workspaceFolders")) { // we can deal with this request right here LSPResponse response = {0}; request = &response.request; request->type = LSP_REQUEST_WORKSPACE_FOLDERS; if (!parse_id(json, request)) { debug_println("Bad ID in workspace/workspaceFolders request. This shouldn't happen."); return false; } lsp_send_response(lsp, &response); return false; } else if (str_has_prefix(method, "$/") || str_has_prefix(method, "telemetry/")) { // we can safely ignore this } else if (streq(method, "textDocument/publishDiagnostics")) { // currently ignored } else { debug_println("Unrecognized request method: %s", method); } return false; } static bool parse_workspace_edit(LSP *lsp, LSPResponse *response, const JSON *json, JSONObject object, LSPWorkspaceEdit *edit) { JSONObject changes = json_object_get_object(json, object, "changes"); for (u32 c = 0; c < changes.len; ++c) { JSONValue uri = json_object_key(json, changes, c); JSONArray edits = json_force_array(json_object_value(json, changes, c)); LSPDocumentID document = 0; if (!parse_document_uri(lsp, json, uri, &document)) return false; for (u32 e = 0; e < edits.len; ++e) { LSPWorkspaceChange *change = arr_addp(edit->changes); change->type = LSP_CHANGE_EDIT; change->data.edit.document = document; JSONValue text_edit = json_array_get(json, edits, e); if (!parse_text_edit(lsp, response, json, text_edit, &change->data.edit.edit)) return false; } } todo : the other thing return true; } static bool parse_rename(LSP *lsp, const JSON *json, LSPResponse *response) { JSONObject result = json_force_object(json_get(json, "result")); return parse_workspace_edit(lsp, response, json, result, &response->data.rename); } static void process_message(LSP *lsp, JSON *json) { #if 0 printf("\x1b[3m"); json_debug_print(json); printf("\x1b[0m\n"); #endif JSONValue id_value = json_get(json, "id"); // get the request associated with this (if any) LSPRequest response_to = {0}; if (id_value.type == JSON_NUMBER) { u64 id = (u64)id_value.val.number; arr_foreach_ptr(lsp->requests_sent, LSPRequest, req) { if (req->id == id) { response_to = *req; arr_remove(lsp->requests_sent, (u32)(req - lsp->requests_sent)); break; } } } double error_code = json_force_number(json_get(json, "error.code")); JSONValue error = json_get(json, "error.message"); JSONValue result = json_get(json, "result"); if (result.type != JSON_UNDEFINED || error.type == JSON_STRING) { // server-to-client response LSPResponse response = {0}; bool add_to_messages = false; response.request = response_to; // make sure (LSPString){0} gets treated as an empty string arr_add(response.string_data, '\0'); if (error.type == JSON_STRING) { response.error = json_string_get_alloc(json, error.val.string); } if (response.error && error_code != LSP_ERROR_REQUEST_CANCELLED) { add_to_messages = true; } else switch (response_to.type) { case LSP_REQUEST_COMPLETION: add_to_messages = parse_completion(lsp, json, &response); break; case LSP_REQUEST_SIGNATURE_HELP: add_to_messages = parse_signature_help(lsp, json, &response); break; case LSP_REQUEST_HOVER: add_to_messages = parse_hover(lsp, json, &response); break; case LSP_REQUEST_DEFINITION: add_to_messages = parse_definition(lsp, json, &response); break; case LSP_REQUEST_WORKSPACE_SYMBOLS: add_to_messages = parse_workspace_symbols(lsp, json, &response); break; case LSP_REQUEST_RENAME: add_to_messages = parse_rename(lsp, json, &response); break; case LSP_REQUEST_INITIALIZE: { // it's the response to our initialize request! if (result.type == JSON_OBJECT) { // read server capabilities JSONObject capabilities = json_object_get_object(json, result.val.object, "capabilities"); parse_capabilities(lsp, json, capabilities); } LSPRequest initialized = { .type = LSP_REQUEST_INITIALIZED, .data = {{0}}, }; write_request(lsp, &initialized); // we can now send requests which have nothing to do with initialization lsp->initialized = true; { // configure jdtls so it actually supports signature help // NOTE: this won't send if the LSP isn't jdtls (because of lsp_supports_request) LSPRequest jdtls_configuration = { .type = LSP_REQUEST_JDTLS_CONFIGURATION }; lsp_send_request(lsp, &jdtls_configuration); } } break; default: // it's some response we don't care about break; } if (add_to_messages) { SDL_LockMutex(lsp->messages_mutex); LSPMessage *message = arr_addp(lsp->messages_server2client); message->type = LSP_RESPONSE; message->u.response = response; SDL_UnlockMutex(lsp->messages_mutex); memset(&response_to, 0, sizeof response_to); // don't free } else { lsp_response_free(&response); } } else if (json_has(json, "method")) { // server-to-client request LSPRequest request = {0}; if (parse_server2client_request(lsp, json, &request)) { SDL_LockMutex(lsp->messages_mutex); LSPMessage *message = arr_addp(lsp->messages_server2client); message->type = LSP_REQUEST; message->u.request = request; SDL_UnlockMutex(lsp->messages_mutex); } else { lsp_request_free(&request); } } else { lsp_set_error(lsp, "Bad message from server (no result, no method)."); } lsp_request_free(&response_to); json_free(json); }