// sass.hpp must go before all system headers to get the // __EXTENSIONS__ fix on Solaris. #include "sass.hpp" #include #include #include #include #include #include "sass.h" #include "ast.hpp" #include "file.hpp" #include "json.hpp" #include "util.hpp" #include "context.hpp" #include "sass_context.hpp" #include "sass_functions.hpp" #include "ast_fwd_decl.hpp" #include "error_handling.hpp" #define LFEED "\n" // C++ helper namespace Sass { // see sass_copy_c_string(std::string str) static inline JsonNode* json_mkstream(const std::stringstream& stream) { // hold on to string on stack! std::string str(stream.str()); return json_mkstring(str.c_str()); } static int handle_error(Sass_Context* c_ctx) { try { throw; } catch (Exception::Base& e) { std::stringstream msg_stream; std::string cwd(Sass::File::get_cwd()); std::string msg_prefix(e.errtype()); bool got_newline = false; msg_stream << msg_prefix << ": "; const char* msg = e.what(); while (msg && *msg) { if (*msg == '\r') { got_newline = true; } else if (*msg == '\n') { got_newline = true; } else if (got_newline) { msg_stream << std::string(msg_prefix.size() + 2, ' '); got_newline = false; } msg_stream << *msg; ++msg; } if (!got_newline) msg_stream << "\n"; if (e.traces.empty()) { // we normally should have some traces, still here as a fallback std::string rel_path(Sass::File::abs2rel(e.pstate.path, cwd, cwd)); msg_stream << std::string(msg_prefix.size() + 2, ' '); msg_stream << " on line " << e.pstate.line + 1 << " of " << rel_path << "\n"; } else { std::string rel_path(Sass::File::abs2rel(e.pstate.path, cwd, cwd)); msg_stream << traces_to_string(e.traces, " "); } // now create the code trace (ToDo: maybe have util functions?) if (e.pstate.line != std::string::npos && e.pstate.column != std::string::npos && e.pstate.src != nullptr) { size_t lines = e.pstate.line; // scan through src until target line // move line_beg pointer to line start const char* line_beg; for (line_beg = e.pstate.src; *line_beg != '\0'; ++line_beg) { if (lines == 0) break; if (*line_beg == '\n') --lines; } // move line_end before next newline character const char* line_end; for (line_end = line_beg; *line_end != '\0'; ++line_end) { if (*line_end == '\n' || *line_end == '\r') break; } if (*line_end != '\0') ++line_end; size_t line_len = line_end - line_beg; size_t move_in = 0; size_t shorten = 0; size_t left_chars = 42; size_t max_chars = 76; // reported excerpt should not exceed `max_chars` chars if (e.pstate.column > line_len) left_chars = e.pstate.column; if (e.pstate.column > left_chars) move_in = e.pstate.column - left_chars; if (line_len > max_chars + move_in) shorten = line_len - move_in - max_chars; utf8::advance(line_beg, move_in, line_end); utf8::retreat(line_end, shorten, line_beg); std::string sanitized; std::string marker(e.pstate.column - move_in, '-'); utf8::replace_invalid(line_beg, line_end, std::back_inserter(sanitized)); msg_stream << ">> " << sanitized << "\n"; msg_stream << " " << marker << "^\n"; } JsonNode* json_err = json_mkobject(); json_append_member(json_err, "status", json_mknumber(1)); json_append_member(json_err, "file", json_mkstring(e.pstate.path)); json_append_member(json_err, "line", json_mknumber((double)(e.pstate.line + 1))); json_append_member(json_err, "column", json_mknumber((double)(e.pstate.column + 1))); json_append_member(json_err, "message", json_mkstring(e.what())); json_append_member(json_err, "formatted", json_mkstream(msg_stream)); try { c_ctx->error_json = json_stringify(json_err, " "); } catch (...) {} c_ctx->error_message = sass_copy_string(msg_stream.str()); c_ctx->error_text = sass_copy_c_string(e.what()); c_ctx->error_status = 1; c_ctx->error_file = sass_copy_c_string(e.pstate.path); c_ctx->error_line = e.pstate.line + 1; c_ctx->error_column = e.pstate.column + 1; c_ctx->error_src = e.pstate.src; c_ctx->output_string = 0; c_ctx->source_map_string = 0; json_delete(json_err); } catch (std::bad_alloc& ba) { std::stringstream msg_stream; JsonNode* json_err = json_mkobject(); msg_stream << "Unable to allocate memory: " << ba.what() << std::endl; json_append_member(json_err, "status", json_mknumber(2)); json_append_member(json_err, "message", json_mkstring(ba.what())); json_append_member(json_err, "formatted", json_mkstream(msg_stream)); try { c_ctx->error_json = json_stringify(json_err, " "); } catch (...) {} c_ctx->error_message = sass_copy_string(msg_stream.str()); c_ctx->error_text = sass_copy_c_string(ba.what()); c_ctx->error_status = 2; c_ctx->output_string = 0; c_ctx->source_map_string = 0; json_delete(json_err); } catch (std::exception& e) { std::stringstream msg_stream; JsonNode* json_err = json_mkobject(); msg_stream << "Internal Error: " << e.what() << std::endl; json_append_member(json_err, "status", json_mknumber(3)); json_append_member(json_err, "message", json_mkstring(e.what())); json_append_member(json_err, "formatted", json_mkstream(msg_stream)); try { c_ctx->error_json = json_stringify(json_err, " "); } catch (...) {} c_ctx->error_message = sass_copy_string(msg_stream.str()); c_ctx->error_text = sass_copy_c_string(e.what()); c_ctx->error_status = 3; c_ctx->output_string = 0; c_ctx->source_map_string = 0; json_delete(json_err); } catch (std::string& e) { std::stringstream msg_stream; JsonNode* json_err = json_mkobject(); msg_stream << "Internal Error: " << e << std::endl; json_append_member(json_err, "status", json_mknumber(4)); json_append_member(json_err, "message", json_mkstring(e.c_str())); json_append_member(json_err, "formatted", json_mkstream(msg_stream)); try { c_ctx->error_json = json_stringify(json_err, " "); } catch (...) {} c_ctx->error_message = sass_copy_string(msg_stream.str()); c_ctx->error_text = sass_copy_c_string(e.c_str()); c_ctx->error_status = 4; c_ctx->output_string = 0; c_ctx->source_map_string = 0; json_delete(json_err); } catch (const char* e) { std::stringstream msg_stream; JsonNode* json_err = json_mkobject(); msg_stream << "Internal Error: " << e << std::endl; json_append_member(json_err, "status", json_mknumber(4)); json_append_member(json_err, "message", json_mkstring(e)); json_append_member(json_err, "formatted", json_mkstream(msg_stream)); try { c_ctx->error_json = json_stringify(json_err, " "); } catch (...) {} c_ctx->error_message = sass_copy_string(msg_stream.str()); c_ctx->error_text = sass_copy_c_string(e); c_ctx->error_status = 4; c_ctx->output_string = 0; c_ctx->source_map_string = 0; json_delete(json_err); } catch (...) { std::stringstream msg_stream; JsonNode* json_err = json_mkobject(); msg_stream << "Unknown error occurred" << std::endl; json_append_member(json_err, "status", json_mknumber(5)); json_append_member(json_err, "message", json_mkstring("unknown")); try { c_ctx->error_json = json_stringify(json_err, " "); } catch (...) {} c_ctx->error_message = sass_copy_string(msg_stream.str()); c_ctx->error_text = sass_copy_c_string("unknown"); c_ctx->error_status = 5; c_ctx->output_string = 0; c_ctx->source_map_string = 0; json_delete(json_err); } return c_ctx->error_status; } // allow one error handler to throw another error // this can happen with invalid utf8 and json lib static int handle_errors(Sass_Context* c_ctx) { try { return handle_error(c_ctx); } catch (...) { return handle_error(c_ctx); } } static Block_Obj sass_parse_block(Sass_Compiler* compiler) throw() { // assert valid pointer if (compiler == 0) return {}; // The cpp context must be set by now Context* cpp_ctx = compiler->cpp_ctx; Sass_Context* c_ctx = compiler->c_ctx; // We will take care to wire up the rest compiler->cpp_ctx->c_compiler = compiler; compiler->state = SASS_COMPILER_PARSED; try { // get input/output path from options std::string input_path = safe_str(c_ctx->input_path); std::string output_path = safe_str(c_ctx->output_path); // maybe skip some entries of included files // we do not include stdin for data contexts bool skip = c_ctx->type == SASS_CONTEXT_DATA; // dispatch parse call Block_Obj root(cpp_ctx->parse()); // abort on errors if (!root) return {}; // skip all prefixed files? (ToDo: check srcmap) // IMO source-maps should point to headers already // therefore don't skip it for now. re-enable or // remove completely once this is tested size_t headers = cpp_ctx->head_imports; // copy the included files on to the context (dont forget to free later) if (copy_strings(cpp_ctx->get_included_files(skip, headers), &c_ctx->included_files) == NULL) throw(std::bad_alloc()); // return parsed block return root; } // pass errors to generic error handler catch (...) { handle_errors(c_ctx); } // error return {}; } } extern "C" { using namespace Sass; static void sass_clear_options (struct Sass_Options* options); static void sass_reset_options (struct Sass_Options* options); static void copy_options(struct Sass_Options* to, struct Sass_Options* from) { // do not overwrite ourself if (to == from) return; // free assigned memory sass_clear_options(to); // move memory *to = *from; // Reset pointers on source sass_reset_options(from); } #define IMPLEMENT_SASS_OPTION_ACCESSOR(type, option) \ type ADDCALL sass_option_get_##option (struct Sass_Options* options) { return options->option; } \ void ADDCALL sass_option_set_##option (struct Sass_Options* options, type option) { options->option = option; } #define IMPLEMENT_SASS_OPTION_STRING_GETTER(type, option, def) \ type ADDCALL sass_option_get_##option (struct Sass_Options* options) { return safe_str(options->option, def); } #define IMPLEMENT_SASS_OPTION_STRING_SETTER(type, option, def) \ void ADDCALL sass_option_set_##option (struct Sass_Options* options, type option) \ { free(options->option); options->option = option || def ? sass_copy_c_string(option ? option : def) : 0; } #define IMPLEMENT_SASS_OPTION_STRING_ACCESSOR(type, option, def) \ IMPLEMENT_SASS_OPTION_STRING_GETTER(type, option, def) \ IMPLEMENT_SASS_OPTION_STRING_SETTER(type, option, def) #define IMPLEMENT_SASS_CONTEXT_GETTER(type, option) \ type ADDCALL sass_context_get_##option (struct Sass_Context* ctx) { return ctx->option; } #define IMPLEMENT_SASS_CONTEXT_TAKER(type, option) \ type sass_context_take_##option (struct Sass_Context* ctx) \ { type foo = ctx->option; ctx->option = 0; return foo; } // generic compilation function (not exported, use file/data compile instead) static Sass_Compiler* sass_prepare_context (Sass_Context* c_ctx, Context* cpp_ctx) throw() { try { // register our custom functions if (c_ctx->c_functions) { auto this_func_data = c_ctx->c_functions; while (this_func_data && *this_func_data) { cpp_ctx->add_c_function(*this_func_data); ++this_func_data; } } // register our custom headers if (c_ctx->c_headers) { auto this_head_data = c_ctx->c_headers; while (this_head_data && *this_head_data) { cpp_ctx->add_c_header(*this_head_data); ++this_head_data; } } // register our custom importers if (c_ctx->c_importers) { auto this_imp_data = c_ctx->c_importers; while (this_imp_data && *this_imp_data) { cpp_ctx->add_c_importer(*this_imp_data); ++this_imp_data; } } // reset error status c_ctx->error_json = 0; c_ctx->error_text = 0; c_ctx->error_message = 0; c_ctx->error_status = 0; // reset error position c_ctx->error_src = 0; c_ctx->error_file = 0; c_ctx->error_line = std::string::npos; c_ctx->error_column = std::string::npos; // allocate a new compiler instance void* ctxmem = calloc(1, sizeof(struct Sass_Compiler)); if (ctxmem == 0) { std::cerr << "Error allocating memory for context" << std::endl; return 0; } Sass_Compiler* compiler = (struct Sass_Compiler*) ctxmem; compiler->state = SASS_COMPILER_CREATED; // store in sass compiler compiler->c_ctx = c_ctx; compiler->cpp_ctx = cpp_ctx; cpp_ctx->c_compiler = compiler; // use to parse block return compiler; } // pass errors to generic error handler catch (...) { handle_errors(c_ctx); } // error return 0; } // generic compilation function (not exported, use file/data compile instead) static int sass_compile_context (Sass_Context* c_ctx, Context* cpp_ctx) { // prepare sass compiler with context and options Sass_Compiler* compiler = sass_prepare_context(c_ctx, cpp_ctx); try { // call each compiler step sass_compiler_parse(compiler); sass_compiler_execute(compiler); } // pass errors to generic error handler catch (...) { handle_errors(c_ctx); } sass_delete_compiler(compiler); return c_ctx->error_status; } inline void init_options (struct Sass_Options* options) { options->precision = 10; options->indent = " "; options->linefeed = LFEED; } Sass_Options* ADDCALL sass_make_options (void) { struct Sass_Options* options = (struct Sass_Options*) calloc(1, sizeof(struct Sass_Options)); if (options == 0) { std::cerr << "Error allocating memory for options" << std::endl; return 0; } init_options(options); return options; } Sass_File_Context* ADDCALL sass_make_file_context(const char* input_path) { SharedObj::setTaint(true); // needed for static colors struct Sass_File_Context* ctx = (struct Sass_File_Context*) calloc(1, sizeof(struct Sass_File_Context)); if (ctx == 0) { std::cerr << "Error allocating memory for file context" << std::endl; return 0; } ctx->type = SASS_CONTEXT_FILE; init_options(ctx); try { if (input_path == 0) { throw(std::runtime_error("File context created without an input path")); } if (*input_path == 0) { throw(std::runtime_error("File context created with empty input path")); } sass_option_set_input_path(ctx, input_path); } catch (...) { handle_errors(ctx); } return ctx; } Sass_Data_Context* ADDCALL sass_make_data_context(char* source_string) { struct Sass_Data_Context* ctx = (struct Sass_Data_Context*) calloc(1, sizeof(struct Sass_Data_Context)); if (ctx == 0) { std::cerr << "Error allocating memory for data context" << std::endl; return 0; } ctx->type = SASS_CONTEXT_DATA; init_options(ctx); try { if (source_string == 0) { throw(std::runtime_error("Data context created without a source string")); } if (*source_string == 0) { throw(std::runtime_error("Data context created with empty source string")); } ctx->source_string = source_string; } catch (...) { handle_errors(ctx); } return ctx; } struct Sass_Compiler* ADDCALL sass_make_data_compiler (struct Sass_Data_Context* data_ctx) { if (data_ctx == 0) return 0; Context* cpp_ctx = new Data_Context(*data_ctx); return sass_prepare_context(data_ctx, cpp_ctx); } struct Sass_Compiler* ADDCALL sass_make_file_compiler (struct Sass_File_Context* file_ctx) { if (file_ctx == 0) return 0; Context* cpp_ctx = new File_Context(*file_ctx); return sass_prepare_context(file_ctx, cpp_ctx); } int ADDCALL sass_compile_data_context(Sass_Data_Context* data_ctx) { if (data_ctx == 0) return 1; if (data_ctx->error_status) return data_ctx->error_status; try { if (data_ctx->source_string == 0) { throw(std::runtime_error("Data context has no source string")); } // empty source string is a valid case, even if not really usefull (different than with file context) // if (*data_ctx->source_string == 0) { throw(std::runtime_error("Data context has empty source string")); } } catch (...) { return handle_errors(data_ctx) | 1; } Context* cpp_ctx = new Data_Context(*data_ctx); return sass_compile_context(data_ctx, cpp_ctx); } int ADDCALL sass_compile_file_context(Sass_File_Context* file_ctx) { if (file_ctx == 0) return 1; if (file_ctx->error_status) return file_ctx->error_status; try { if (file_ctx->input_path == 0) { throw(std::runtime_error("File context has no input path")); } if (*file_ctx->input_path == 0) { throw(std::runtime_error("File context has empty input path")); } } catch (...) { return handle_errors(file_ctx) | 1; } Context* cpp_ctx = new File_Context(*file_ctx); return sass_compile_context(file_ctx, cpp_ctx); } int ADDCALL sass_compiler_parse(struct Sass_Compiler* compiler) { if (compiler == 0) return 1; if (compiler->state == SASS_COMPILER_PARSED) return 0; if (compiler->state != SASS_COMPILER_CREATED) return -1; if (compiler->c_ctx == NULL) return 1; if (compiler->cpp_ctx == NULL) return 1; if (compiler->c_ctx->error_status) return compiler->c_ctx->error_status; // parse the context we have set up (file or data) compiler->root = sass_parse_block(compiler); // success return 0; } int ADDCALL sass_compiler_execute(struct Sass_Compiler* compiler) { if (compiler == 0) return 1; if (compiler->state == SASS_COMPILER_EXECUTED) return 0; if (compiler->state != SASS_COMPILER_PARSED) return -1; if (compiler->c_ctx == NULL) return 1; if (compiler->cpp_ctx == NULL) return 1; if (compiler->root.isNull()) return 1; if (compiler->c_ctx->error_status) return compiler->c_ctx->error_status; compiler->state = SASS_COMPILER_EXECUTED; Context* cpp_ctx = compiler->cpp_ctx; Block_Obj root = compiler->root; // compile the parsed root block try { compiler->c_ctx->output_string = cpp_ctx->render(root); } // pass catched errors to generic error handler catch (...) { return handle_errors(compiler->c_ctx) | 1; } // generate source map json and store on context compiler->c_ctx->source_map_string = cpp_ctx->render_srcmap(); // success return 0; } // helper function, not exported, only accessible locally static void sass_reset_options (struct Sass_Options* options) { // free pointer before // or copy/move them options->input_path = 0; options->output_path = 0; options->plugin_path = 0; options->include_path = 0; options->source_map_file = 0; options->source_map_root = 0; options->c_functions = 0; options->c_importers = 0; options->c_headers = 0; options->plugin_paths = 0; options->include_paths = 0; } // helper function, not exported, only accessible locally static void sass_clear_options (struct Sass_Options* options) { if (options == 0) return; // Deallocate custom functions, headers and importes sass_delete_function_list(options->c_functions); sass_delete_importer_list(options->c_importers); sass_delete_importer_list(options->c_headers); // Deallocate inc paths if (options->plugin_paths) { struct string_list* cur; struct string_list* next; cur = options->plugin_paths; while (cur) { next = cur->next; free(cur->string); free(cur); cur = next; } } // Deallocate inc paths if (options->include_paths) { struct string_list* cur; struct string_list* next; cur = options->include_paths; while (cur) { next = cur->next; free(cur->string); free(cur); cur = next; } } // Free options strings free(options->input_path); free(options->output_path); free(options->plugin_path); free(options->include_path); free(options->source_map_file); free(options->source_map_root); // Reset our pointers options->input_path = 0; options->output_path = 0; options->plugin_path = 0; options->include_path = 0; options->source_map_file = 0; options->source_map_root = 0; options->c_functions = 0; options->c_importers = 0; options->c_headers = 0; options->plugin_paths = 0; options->include_paths = 0; } // helper function, not exported, only accessible locally // sass_free_context is also defined in old sass_interface static void sass_clear_context (struct Sass_Context* ctx) { if (ctx == 0) return; // release the allocated memory (mostly via sass_copy_c_string) if (ctx->output_string) free(ctx->output_string); if (ctx->source_map_string) free(ctx->source_map_string); if (ctx->error_message) free(ctx->error_message); if (ctx->error_text) free(ctx->error_text); if (ctx->error_json) free(ctx->error_json); if (ctx->error_file) free(ctx->error_file); free_string_array(ctx->included_files); // play safe and reset properties ctx->output_string = 0; ctx->source_map_string = 0; ctx->error_message = 0; ctx->error_text = 0; ctx->error_json = 0; ctx->error_file = 0; ctx->included_files = 0; // debug leaked memory #ifdef DEBUG_SHARED_PTR SharedObj::dumpMemLeaks(); #endif // now clear the options sass_clear_options(ctx); } void ADDCALL sass_delete_compiler (struct Sass_Compiler* compiler) { if (compiler == 0) { return; } Context* cpp_ctx = compiler->cpp_ctx; if (cpp_ctx) delete(cpp_ctx); compiler->cpp_ctx = NULL; compiler->c_ctx = NULL; compiler->root = {}; free(compiler); } void ADDCALL sass_delete_options (struct Sass_Options* options) { sass_clear_options(options); free(options); } // Deallocate all associated memory with file context void ADDCALL sass_delete_file_context (struct Sass_File_Context* ctx) { // clear the context and free it sass_clear_context(ctx); free(ctx); } // Deallocate all associated memory with data context void ADDCALL sass_delete_data_context (struct Sass_Data_Context* ctx) { // clean the source string if it was not passed // we reset this member once we start parsing if (ctx->source_string) free(ctx->source_string); // clear the context and free it sass_clear_context(ctx); free(ctx); } // Getters for sass context from specific implementations struct Sass_Context* ADDCALL sass_file_context_get_context(struct Sass_File_Context* ctx) { return ctx; } struct Sass_Context* ADDCALL sass_data_context_get_context(struct Sass_Data_Context* ctx) { return ctx; } // Getters for context options from Sass_Context struct Sass_Options* ADDCALL sass_context_get_options(struct Sass_Context* ctx) { return ctx; } struct Sass_Options* ADDCALL sass_file_context_get_options(struct Sass_File_Context* ctx) { return ctx; } struct Sass_Options* ADDCALL sass_data_context_get_options(struct Sass_Data_Context* ctx) { return ctx; } void ADDCALL sass_file_context_set_options (struct Sass_File_Context* ctx, struct Sass_Options* opt) { copy_options(ctx, opt); } void ADDCALL sass_data_context_set_options (struct Sass_Data_Context* ctx, struct Sass_Options* opt) { copy_options(ctx, opt); } // Getters for Sass_Compiler options (get conected sass context) enum Sass_Compiler_State ADDCALL sass_compiler_get_state(struct Sass_Compiler* compiler) { return compiler->state; } struct Sass_Context* ADDCALL sass_compiler_get_context(struct Sass_Compiler* compiler) { return compiler->c_ctx; } struct Sass_Options* ADDCALL sass_compiler_get_options(struct Sass_Compiler* compiler) { return compiler->c_ctx; } // Getters for Sass_Compiler options (query import stack) size_t ADDCALL sass_compiler_get_import_stack_size(struct Sass_Compiler* compiler) { return compiler->cpp_ctx->import_stack.size(); } Sass_Import_Entry ADDCALL sass_compiler_get_last_import(struct Sass_Compiler* compiler) { return compiler->cpp_ctx->import_stack.back(); } Sass_Import_Entry ADDCALL sass_compiler_get_import_entry(struct Sass_Compiler* compiler, size_t idx) { return compiler->cpp_ctx->import_stack[idx]; } // Getters for Sass_Compiler options (query function stack) size_t ADDCALL sass_compiler_get_callee_stack_size(struct Sass_Compiler* compiler) { return compiler->cpp_ctx->callee_stack.size(); } Sass_Callee_Entry ADDCALL sass_compiler_get_last_callee(struct Sass_Compiler* compiler) { return &compiler->cpp_ctx->callee_stack.back(); } Sass_Callee_Entry ADDCALL sass_compiler_get_callee_entry(struct Sass_Compiler* compiler, size_t idx) { return &compiler->cpp_ctx->callee_stack[idx]; } // Calculate the size of the stored null terminated array size_t ADDCALL sass_context_get_included_files_size (struct Sass_Context* ctx) { size_t l = 0; auto i = ctx->included_files; while (i && *i) { ++i; ++l; } return l; } // Create getter and setters for options IMPLEMENT_SASS_OPTION_ACCESSOR(int, precision); IMPLEMENT_SASS_OPTION_ACCESSOR(enum Sass_Output_Style, output_style); IMPLEMENT_SASS_OPTION_ACCESSOR(bool, source_comments); IMPLEMENT_SASS_OPTION_ACCESSOR(bool, source_map_embed); IMPLEMENT_SASS_OPTION_ACCESSOR(bool, source_map_contents); IMPLEMENT_SASS_OPTION_ACCESSOR(bool, source_map_file_urls); IMPLEMENT_SASS_OPTION_ACCESSOR(bool, omit_source_map_url); IMPLEMENT_SASS_OPTION_ACCESSOR(bool, is_indented_syntax_src); IMPLEMENT_SASS_OPTION_ACCESSOR(Sass_Function_List, c_functions); IMPLEMENT_SASS_OPTION_ACCESSOR(Sass_Importer_List, c_importers); IMPLEMENT_SASS_OPTION_ACCESSOR(Sass_Importer_List, c_headers); IMPLEMENT_SASS_OPTION_ACCESSOR(const char*, indent); IMPLEMENT_SASS_OPTION_ACCESSOR(const char*, linefeed); IMPLEMENT_SASS_OPTION_STRING_SETTER(const char*, plugin_path, 0); IMPLEMENT_SASS_OPTION_STRING_SETTER(const char*, include_path, 0); IMPLEMENT_SASS_OPTION_STRING_ACCESSOR(const char*, input_path, 0); IMPLEMENT_SASS_OPTION_STRING_ACCESSOR(const char*, output_path, 0); IMPLEMENT_SASS_OPTION_STRING_ACCESSOR(const char*, source_map_file, 0); IMPLEMENT_SASS_OPTION_STRING_ACCESSOR(const char*, source_map_root, 0); // Create getter and setters for context IMPLEMENT_SASS_CONTEXT_GETTER(int, error_status); IMPLEMENT_SASS_CONTEXT_GETTER(const char*, error_json); IMPLEMENT_SASS_CONTEXT_GETTER(const char*, error_message); IMPLEMENT_SASS_CONTEXT_GETTER(const char*, error_text); IMPLEMENT_SASS_CONTEXT_GETTER(const char*, error_file); IMPLEMENT_SASS_CONTEXT_GETTER(size_t, error_line); IMPLEMENT_SASS_CONTEXT_GETTER(size_t, error_column); IMPLEMENT_SASS_CONTEXT_GETTER(const char*, error_src); IMPLEMENT_SASS_CONTEXT_GETTER(const char*, output_string); IMPLEMENT_SASS_CONTEXT_GETTER(const char*, source_map_string); IMPLEMENT_SASS_CONTEXT_GETTER(char**, included_files); // Take ownership of memory (value on context is set to 0) IMPLEMENT_SASS_CONTEXT_TAKER(char*, error_json); IMPLEMENT_SASS_CONTEXT_TAKER(char*, error_message); IMPLEMENT_SASS_CONTEXT_TAKER(char*, error_text); IMPLEMENT_SASS_CONTEXT_TAKER(char*, error_file); IMPLEMENT_SASS_CONTEXT_TAKER(char*, output_string); IMPLEMENT_SASS_CONTEXT_TAKER(char*, source_map_string); IMPLEMENT_SASS_CONTEXT_TAKER(char**, included_files); // Push function for include paths (no manipulation support for now) void ADDCALL sass_option_push_include_path(struct Sass_Options* options, const char* path) { struct string_list* include_path = (struct string_list*) calloc(1, sizeof(struct string_list)); if (include_path == 0) return; include_path->string = path ? sass_copy_c_string(path) : 0; struct string_list* last = options->include_paths; if (!options->include_paths) { options->include_paths = include_path; } else { while (last->next) last = last->next; last->next = include_path; } } // Push function for include paths (no manipulation support for now) size_t ADDCALL sass_option_get_include_path_size(struct Sass_Options* options) { size_t len = 0; struct string_list* cur = options->include_paths; while (cur) { len ++; cur = cur->next; } return len; } // Push function for include paths (no manipulation support for now) const char* ADDCALL sass_option_get_include_path(struct Sass_Options* options, size_t i) { struct string_list* cur = options->include_paths; while (i) { i--; cur = cur->next; } return cur->string; } // Push function for plugin paths (no manipulation support for now) void ADDCALL sass_option_push_plugin_path(struct Sass_Options* options, const char* path) { struct string_list* plugin_path = (struct string_list*) calloc(1, sizeof(struct string_list)); if (plugin_path == 0) return; plugin_path->string = path ? sass_copy_c_string(path) : 0; struct string_list* last = options->plugin_paths; if (!options->plugin_paths) { options->plugin_paths = plugin_path; } else { while (last->next) last = last->next; last->next = plugin_path; } } }