#include "main.h" #include "scripting/decl.h" #include "scripting/ruby_compiled.h" #include "utils/utils.h" #include std::unordered_map> custom_highlighters; struct R_ThemeEntry { std::string key; uint32_t fg = 0xFFFFFF; uint32_t bg = 0x000000; bool italic = false; bool bold = false; bool underline = false; bool strikethrough = false; }; struct R_Language { std::string name; uint32_t color = 0xFFFFFF; std::vector extensions; std::vector filenames; std::string lsp_command; // link to LSP by name }; mrb_state *mrb = nullptr; RClass *C_module; namespace fs = std::filesystem; void ruby_start() { mrb = mrb_open(); if (!mrb) { fprintf(stderr, "Failed to init mruby\n"); return; } fs::path exe_dir = get_exe_dir(); std::vector candidates; candidates.emplace_back("./crib.rb"); const char *xdg = std::getenv("XDG_CONFIG_HOME"); const char *home = std::getenv("HOME"); if (xdg) { candidates.emplace_back(fs::path(xdg) / "crib/crib.rb"); candidates.emplace_back(fs::path(xdg) / "crib/main.rb"); candidates.emplace_back(fs::path(xdg) / "crib.rb"); } else if (home) { fs::path base = fs::path(home) / ".config"; candidates.emplace_back(base / "crib/crib.rb"); candidates.emplace_back(base / "crib/main.rb"); candidates.emplace_back(base / "crib.rb"); } candidates.emplace_back(exe_dir / "../config/main.rb"); candidates.emplace_back(exe_dir / "../config/crib.rb"); mrb_load_irep(mrb, _tmp___crib_precompiled_mrb); C_module = mrb_module_get(mrb, "C"); setup_ruby_bindings(mrb, C_module); for (const auto &p : candidates) { if (fs::exists(p)) { FILE *f = fopen(p.string().c_str(), "r"); if (f) { mrb_load_file(mrb, f); if (mrb->exc) exit(1); fclose(f); } break; } } mrb_value mod_val = mrb_obj_value(C_module); mrb_value block = mrb_funcall(mrb, mod_val, "b_startup", 0); if (!mrb_nil_p(block)) mrb_funcall(mrb, block, "call", 0); } inline static std::vector convert_highlights(mrb_state *mrb, mrb_value highlights_val) { std::vector result; if (!mrb_array_p(highlights_val)) return result; mrb_int len = RARRAY_LEN(highlights_val); for (mrb_int i = 0; i < len; i++) { mrb_value item = mrb_ary_ref(mrb, highlights_val, i); if (!mrb_hash_p(item)) continue; auto get_sym = [&](const char *name) { return mrb_symbol_value(mrb_intern_cstr(mrb, name)); }; mrb_value fg_v = mrb_hash_get(mrb, item, get_sym("fg")); mrb_value bg_v = mrb_hash_get(mrb, item, get_sym("bg")); mrb_value flags_v = mrb_hash_get(mrb, item, get_sym("flags")); mrb_value start_v = mrb_hash_get(mrb, item, get_sym("start")); mrb_value length_v = mrb_hash_get(mrb, item, get_sym("length")); BarLight bl{}; if (!mrb_nil_p(fg_v)) bl.highlight.fg = (uint32_t)mrb_fixnum(fg_v); if (!mrb_nil_p(bg_v)) bl.highlight.bg = (uint32_t)mrb_fixnum(bg_v); if (!mrb_nil_p(flags_v)) bl.highlight.flags = (uint32_t)mrb_fixnum(flags_v); uint32_t start = !mrb_nil_p(start_v) ? (uint32_t)mrb_fixnum(start_v) : 0; uint32_t length = !mrb_nil_p(length_v) ? (uint32_t)mrb_fixnum(length_v) : 0; bl.start = start; bl.end = start + length; result.push_back(bl); } return result; } BarLine bar_contents(uint8_t mode, std::string lang_name, uint32_t warnings, std::string lsp_name, std::string filename, std::string foldername, uint32_t line, uint32_t max_line, uint32_t width) { BarLine bar_line; mrb_value info = mrb_hash_new(mrb); mrb_value key_mode = mrb_symbol_value(mrb_intern_cstr(mrb, "mode")); mrb_value val_mode; switch (mode) { case NORMAL: val_mode = mrb_symbol_value(mrb_intern_cstr(mrb, "normal")); break; case INSERT: val_mode = mrb_symbol_value(mrb_intern_cstr(mrb, "insert")); break; case SELECT: val_mode = mrb_symbol_value(mrb_intern_cstr(mrb, "select")); break; case RUNNER: val_mode = mrb_symbol_value(mrb_intern_cstr(mrb, "runner")); break; case JUMPER: val_mode = mrb_symbol_value(mrb_intern_cstr(mrb, "jumper")); break; } mrb_hash_set(mrb, info, key_mode, val_mode); mrb_value key_lang_name = mrb_symbol_value(mrb_intern_cstr(mrb, "lang_name")); mrb_value val_lang_name = mrb_symbol_value(mrb_intern_cstr(mrb, lang_name.c_str())); mrb_hash_set(mrb, info, key_lang_name, val_lang_name); mrb_value key_filename = mrb_symbol_value(mrb_intern_cstr(mrb, "filename")); mrb_value val_filename = mrb_str_new(mrb, filename.c_str(), filename.length()); mrb_hash_set(mrb, info, key_filename, val_filename); mrb_value key_width = mrb_symbol_value(mrb_intern_cstr(mrb, "width")); mrb_value val_width = mrb_fixnum_value(width); mrb_hash_set(mrb, info, key_width, val_width); mrb_value mod_val = mrb_obj_value(C_module); mrb_value block = mrb_funcall(mrb, mod_val, "b_bar", 0); mrb_value val_line = mrb_funcall(mrb, block, "call", 1, info); if (mrb->exc) exit(1); mrb_value text_val = mrb_hash_get( mrb, val_line, mrb_symbol_value(mrb_intern_cstr(mrb, "text"))); const char *ptr = RSTRING_PTR(text_val); mrb_int len = RSTRING_LEN(text_val); bar_line.line = std::string(ptr, len); mrb_value highlights_val = mrb_hash_get( mrb, val_line, mrb_symbol_value(mrb_intern_cstr(mrb, "highlights"))); bar_line.highlights = convert_highlights(mrb, highlights_val); return bar_line; } void ruby_shutdown() { if (C_module == nullptr) return; mrb_value mod_val = mrb_obj_value(C_module); mrb_value block = mrb_funcall(mrb, mod_val, "b_shutdown", 0); if (!mrb_nil_p(block)) mrb_funcall(mrb, block, "call", 0); mrb_close(mrb); mrb = nullptr; C_module = nullptr; } std::vector array_to_vector(mrb_value ary) { std::vector result; if (mrb_nil_p(ary) || mrb_type(ary) != MRB_TT_ARRAY) return result; mrb_int len = RARRAY_LEN(ary); for (mrb_int i = 0; i < len; i++) { mrb_value item = mrb_ary_ref(mrb, ary, i); if (mrb_string_p(item)) result.push_back(std::string(RSTRING_PTR(item), RSTRING_LEN(item))); } return result; } void load_custom_highlighters() { if (!C_module) return; mrb_value mod_val = mrb_obj_value((struct RObject *)C_module); mrb_value hashmap = mrb_funcall(mrb, mod_val, "highlighters", 0); if (mrb_nil_p(hashmap) || mrb_type(hashmap) != MRB_TT_HASH) return; mrb_value keys = mrb_funcall(mrb, hashmap, "keys", 0); mrb_int len = RARRAY_LEN(keys); for (mrb_int i = 0; i < len; i++) { mrb_value key_sym = mrb_ary_ref(mrb, keys, i); mrb_sym sym_id = mrb_symbol(key_sym); const char *key_cstr = mrb_sym_dump(mrb, sym_id); std::string key(key_cstr); mrb_value val_hash = mrb_hash_get(mrb, hashmap, key_sym); if (mrb_nil_p(val_hash) || mrb_type(val_hash) != MRB_TT_HASH) continue; mrb_sym parser_sym = mrb_intern_lit(mrb, "parser"); mrb_sym matcher_sym = mrb_intern_lit(mrb, "matcher"); mrb_value parse_block = mrb_hash_get(mrb, val_hash, mrb_symbol_value(parser_sym)); mrb_value match_block = mrb_hash_get(mrb, val_hash, mrb_symbol_value(matcher_sym)); custom_highlighters[key] = {parse_block, match_block}; } } bool custom_compare(mrb_value match_block, mrb_value state1, mrb_value state2) { if (mrb_type(match_block) != MRB_TT_PROC) return false; mrb_value ret = mrb_funcall(mrb, match_block, "call", 2, state1, state2); return mrb_test(ret); } mrb_value parse_custom(std::vector *tokens, mrb_value parser_block, const char *line, uint32_t len, mrb_value state, uint32_t c_line) { tokens->clear(); if (mrb_nil_p(parser_block)) return mrb_nil_value(); mrb_value ruby_line = mrb_str_new(mrb, line, len); mrb_value line_idx = mrb_fixnum_value(c_line); mrb_value tokens_and_state_hash = mrb_funcall(mrb, parser_block, "call", 3, ruby_line, state, line_idx); mrb_sym tokens_sym = mrb_intern_lit(mrb, "tokens"); mrb_value tokens_rb = mrb_hash_get(mrb, tokens_and_state_hash, mrb_symbol_value(tokens_sym)); if (mrb_type(tokens_rb) == MRB_TT_ARRAY) { mrb_int len_tokens = RARRAY_LEN(tokens_rb); for (mrb_int i = 0; i < len_tokens; i++) { mrb_value token = mrb_ary_ref(mrb, tokens_rb, i); Token tok; tok.type = (TokenKind)mrb_fixnum(mrb_hash_get( mrb, token, mrb_symbol_value(mrb_intern_lit(mrb, "type")))); tok.start = (uint32_t)mrb_fixnum(mrb_hash_get( mrb, token, mrb_symbol_value(mrb_intern_lit(mrb, "start")))); tok.end = (uint32_t)mrb_fixnum(mrb_hash_get( mrb, token, mrb_symbol_value(mrb_intern_lit(mrb, "end")))); if (tok.type < TokenKind::Count && tok.end > tok.start && tok.end <= len) tokens->push_back(tok); } } mrb_sym state_sym = mrb_intern_lit(mrb, "state"); return mrb_hash_get(mrb, tokens_and_state_hash, mrb_symbol_value(state_sym)); } static std::vector read_theme() { std::vector result; if (!C_module) return result; mrb_value mod_val = mrb_obj_value((struct RObject *)C_module); mrb_value theme_hash = mrb_funcall(mrb, mod_val, "theme", 0); if (mrb_nil_p(theme_hash) || mrb_type(theme_hash) != MRB_TT_HASH) return result; mrb_value keys = mrb_funcall(mrb, theme_hash, "keys", 0); mrb_int len_keys = RARRAY_LEN(keys); for (mrb_int i = 0; i < len_keys; i++) { mrb_value key_sym = mrb_ary_ref(mrb, keys, i); mrb_sym sym_id = mrb_symbol(key_sym); const char *key_cstr = mrb_sym_dump(mrb, sym_id); std::string key(key_cstr); mrb_value val_hash = mrb_hash_get(mrb, theme_hash, key_sym); if (mrb_nil_p(val_hash) || mrb_type(val_hash) != MRB_TT_HASH) continue; R_ThemeEntry entry; entry.key = key; mrb_value fg = mrb_hash_get(mrb, val_hash, mrb_symbol_value(mrb_intern_lit(mrb, "fg"))); mrb_value bg = mrb_hash_get(mrb, val_hash, mrb_symbol_value(mrb_intern_lit(mrb, "bg"))); mrb_value italic = mrb_hash_get( mrb, val_hash, mrb_symbol_value(mrb_intern_lit(mrb, "italic"))); mrb_value bold = mrb_hash_get( mrb, val_hash, mrb_symbol_value(mrb_intern_lit(mrb, "bold"))); mrb_value underline = mrb_hash_get( mrb, val_hash, mrb_symbol_value(mrb_intern_lit(mrb, "underline"))); mrb_value strikethrough = mrb_hash_get( mrb, val_hash, mrb_symbol_value(mrb_intern_lit(mrb, "strikethrough"))); if (!mrb_nil_p(fg)) entry.fg = (uint32_t)mrb_fixnum(fg); if (!mrb_nil_p(bg)) entry.bg = (uint32_t)mrb_fixnum(bg); if (!mrb_nil_p(italic)) entry.italic = mrb_test(italic); if (!mrb_nil_p(bold)) entry.bold = mrb_test(bold); if (!mrb_nil_p(underline)) entry.underline = mrb_test(underline); if (!mrb_nil_p(strikethrough)) entry.strikethrough = mrb_test(strikethrough); result.push_back(entry); } return result; } void load_theme() { std::vector entries = read_theme(); Highlight default_hl = {0xFFFFFF, 0, 0}; for (auto &entry : entries) { if (entry.key == "default") { default_hl.fg = entry.fg; default_hl.bg = entry.bg; if (entry.italic) default_hl.flags |= CF_ITALIC; if (entry.bold) default_hl.flags |= CF_BOLD; if (entry.underline) default_hl.flags |= CF_UNDERLINE; if (entry.strikethrough) default_hl.flags |= CF_STRIKETHROUGH; break; } } for (auto &hl : highlights) hl = default_hl; for (auto &entry : entries) { if (entry.key == "default") continue; std::string key = "k_" + entry.key; for (char &c : key) c = std::toupper(static_cast(c)); auto it = kind_map.find(key); if (it == kind_map.end()) continue; Highlight hl = {0xFFFFFF, 0, 0}; hl.fg = entry.fg; hl.bg = entry.bg; if (entry.italic) hl.flags |= CF_ITALIC; if (entry.bold) hl.flags |= CF_BOLD; if (entry.underline) hl.flags |= CF_UNDERLINE; if (entry.strikethrough) hl.flags |= CF_STRIKETHROUGH; highlights[static_cast(it->second)] = hl; } } std::vector read_lsps() { std::vector result; if (!C_module) return result; mrb_value mod_val = mrb_obj_value((struct RObject *)C_module); mrb_value lsp_hash = mrb_funcall(mrb, mod_val, "lsp_config", 0); if (mrb_nil_p(lsp_hash) || mrb_type(lsp_hash) != MRB_TT_HASH) return result; mrb_value keys = mrb_funcall(mrb, lsp_hash, "keys", 0); mrb_int len_keys = RARRAY_LEN(keys); for (mrb_int i = 0; i < len_keys; i++) { mrb_value key = mrb_ary_ref(mrb, keys, i); std::string cmd; if (mrb_string_p(key)) cmd = std::string(RSTRING_PTR(key), RSTRING_LEN(key)); else if (mrb_symbol_p(key)) cmd = std::string(mrb_sym_dump(mrb, mrb_symbol(key))); mrb_value args_array = mrb_hash_get(mrb, lsp_hash, key); std::vector args = array_to_vector(args_array); result.push_back({cmd, args}); } return result; } std::vector read_languages() { std::vector result; if (!C_module) return result; mrb_value mod_val = mrb_obj_value((struct RObject *)C_module); mrb_value lang_hash = mrb_funcall(mrb, mod_val, "languages", 0); if (mrb_nil_p(lang_hash) || mrb_type(lang_hash) != MRB_TT_HASH) return result; mrb_value keys = mrb_funcall(mrb, lang_hash, "keys", 0); mrb_int len_keys = RARRAY_LEN(keys); for (mrb_int i = 0; i < len_keys; i++) { mrb_value key = mrb_ary_ref(mrb, keys, i); mrb_value val_hash = mrb_hash_get(mrb, lang_hash, key); if (mrb_nil_p(val_hash) || mrb_type(val_hash) != MRB_TT_HASH) continue; R_Language lang; if (mrb_symbol_p(key)) lang.name = std::string(mrb_sym_dump(mrb, mrb_symbol(key))); else if (mrb_string_p(key)) lang.name = std::string(RSTRING_PTR(key), RSTRING_LEN(key)); mrb_value fg = mrb_hash_get(mrb, val_hash, mrb_symbol_value(mrb_intern_lit(mrb, "color"))); mrb_value extensions = mrb_hash_get( mrb, val_hash, mrb_symbol_value(mrb_intern_lit(mrb, "extensions"))); mrb_value filenames = mrb_hash_get( mrb, val_hash, mrb_symbol_value(mrb_intern_lit(mrb, "filenames"))); mrb_value lsp = mrb_hash_get(mrb, val_hash, mrb_symbol_value(mrb_intern_lit(mrb, "lsp"))); if (!mrb_nil_p(fg)) lang.color = (uint32_t)mrb_fixnum(fg); lang.extensions = array_to_vector(extensions); if (!mrb_nil_p(filenames)) lang.filenames = array_to_vector(filenames); if (!mrb_nil_p(lsp)) lang.lsp_command = std::string(RSTRING_PTR(lsp), RSTRING_LEN(lsp)); result.push_back(lang); } return result; } void load_languages_info() { auto langs = read_languages(); auto lsps_t = read_lsps(); languages.clear(); for (auto &lang : langs) { Language l; l.name = lang.name; l.color = lang.color; l.lsp_name = lang.lsp_command; languages[lang.name] = l; for (auto &ext : lang.extensions) language_extensions[ext] = lang.name; // TODO: seperate extensions and filenames for (auto &filename : lang.filenames) language_extensions[filename] = lang.name; } for (auto &lsp : lsps_t) lsps[lsp.command] = lsp; } uint8_t read_line_endings() { if (!C_module) return 1; mrb_value mod_val = mrb_obj_value((struct RObject *)C_module); mrb_value le = mrb_funcall(mrb, mod_val, "line_endings", 0); if (!mrb_symbol_p(le)) return 1; uint8_t flags = 1; const char *name = mrb_sym_dump(mrb, mrb_symbol(le)); if (std::strcmp(name, "unix") == 0) flags = 0b01; else if (std::strcmp(name, "windows") == 0) flags = 0b00; else if (std::strcmp(name, "auto_unix") == 0) flags = 0b11; else if (std::strcmp(name, "auto_windows") == 0) flags = 0b10; return flags; }