# helpers: coerce_to module ::Kernel def format(format_string, *args) if args.length == 1 && args[0].respond_to?(:to_ary) ary = ::Opal.coerce_to?(args[0], ::Array, :to_ary) args = ary.to_a unless ary.nil? end %x{ var result = '', //used for slicing: begin_slice = 0, end_slice, //used for iterating over the format string: i, len = format_string.length, //used for processing field values: arg, str, //used for processing %g and %G fields: exponent, //used for keeping track of width and precision: width, precision, //used for holding temporary values: tmp_num, //used for processing %{} and %<> fileds: hash_parameter_key, closing_brace_char, //used for processing %b, %B, %o, %x, and %X fields: base_number, base_prefix, base_neg_zero_regex, base_neg_zero_digit, //used for processing arguments: next_arg, seq_arg_num = 1, pos_arg_num = 0, //used for keeping track of flags: flags, FNONE = 0, FSHARP = 1, FMINUS = 2, FPLUS = 4, FZERO = 8, FSPACE = 16, FWIDTH = 32, FPREC = 64, FPREC0 = 128; function CHECK_FOR_FLAGS() { if (flags&FWIDTH) { #{::Kernel.raise ::ArgumentError, 'flag after width'} } if (flags&FPREC0) { #{::Kernel.raise ::ArgumentError, 'flag after precision'} } } function CHECK_FOR_WIDTH() { if (flags&FWIDTH) { #{::Kernel.raise ::ArgumentError, 'width given twice'} } if (flags&FPREC0) { #{::Kernel.raise ::ArgumentError, 'width after precision'} } } function GET_NTH_ARG(num) { if (num >= args.length) { #{::Kernel.raise ::ArgumentError, 'too few arguments'} } return args[num]; } function GET_NEXT_ARG() { switch (pos_arg_num) { case -1: #{::Kernel.raise ::ArgumentError, "unnumbered(#{`seq_arg_num`}) mixed with numbered"} // raise case -2: #{::Kernel.raise ::ArgumentError, "unnumbered(#{`seq_arg_num`}) mixed with named"} // raise } pos_arg_num = seq_arg_num++; return GET_NTH_ARG(pos_arg_num - 1); } function GET_POS_ARG(num) { if (pos_arg_num > 0) { #{::Kernel.raise ::ArgumentError, "numbered(#{`num`}) after unnumbered(#{`pos_arg_num`})"} } if (pos_arg_num === -2) { #{::Kernel.raise ::ArgumentError, "numbered(#{`num`}) after named"} } if (num < 1) { #{::Kernel.raise ::ArgumentError, "invalid index - #{`num`}$"} } pos_arg_num = -1; return GET_NTH_ARG(num - 1); } function GET_ARG() { return (next_arg === undefined ? GET_NEXT_ARG() : next_arg); } function READ_NUM(label) { var num, str = ''; for (;; i++) { if (i === len) { #{::Kernel.raise ::ArgumentError, 'malformed format string - %*[0-9]'} } if (format_string.charCodeAt(i) < 48 || format_string.charCodeAt(i) > 57) { i--; num = parseInt(str, 10) || 0; if (num > 2147483647) { #{::Kernel.raise ::ArgumentError, "#{`label`} too big"} } return num; } str += format_string.charAt(i); } } function READ_NUM_AFTER_ASTER(label) { var arg, num = READ_NUM(label); if (format_string.charAt(i + 1) === '$') { i++; arg = GET_POS_ARG(num); } else { arg = GET_NEXT_ARG(); } return #{`arg`.to_int}; } for (i = format_string.indexOf('%'); i !== -1; i = format_string.indexOf('%', i)) { str = undefined; flags = FNONE; width = -1; precision = -1; next_arg = undefined; end_slice = i; i++; switch (format_string.charAt(i)) { case '%': begin_slice = i; // no-break case '': case '\n': case '\0': i++; continue; } format_sequence: for (; i < len; i++) { switch (format_string.charAt(i)) { case ' ': CHECK_FOR_FLAGS(); flags |= FSPACE; continue format_sequence; case '#': CHECK_FOR_FLAGS(); flags |= FSHARP; continue format_sequence; case '+': CHECK_FOR_FLAGS(); flags |= FPLUS; continue format_sequence; case '-': CHECK_FOR_FLAGS(); flags |= FMINUS; continue format_sequence; case '0': CHECK_FOR_FLAGS(); flags |= FZERO; continue format_sequence; case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': tmp_num = READ_NUM('width'); if (format_string.charAt(i + 1) === '$') { if (i + 2 === len) { str = '%'; i++; break format_sequence; } if (next_arg !== undefined) { #{::Kernel.raise ::ArgumentError, "value given twice - %#{`tmp_num`}$"} } next_arg = GET_POS_ARG(tmp_num); i++; } else { CHECK_FOR_WIDTH(); flags |= FWIDTH; width = tmp_num; } continue format_sequence; case '<': case '\{': closing_brace_char = (format_string.charAt(i) === '<' ? '>' : '\}'); hash_parameter_key = ''; i++; for (;; i++) { if (i === len) { #{::Kernel.raise ::ArgumentError, 'malformed name - unmatched parenthesis'} } if (format_string.charAt(i) === closing_brace_char) { if (pos_arg_num > 0) { #{::Kernel.raise ::ArgumentError, "named #{`hash_parameter_key`} after unnumbered(#{`pos_arg_num`})"} } if (pos_arg_num === -1) { #{::Kernel.raise ::ArgumentError, "named #{`hash_parameter_key`} after numbered"} } pos_arg_num = -2; if (args[0] === undefined || !args[0].$$is_hash) { #{::Kernel.raise ::ArgumentError, 'one hash required'} } next_arg = #{`args[0]`.fetch(`hash_parameter_key`)}; if (closing_brace_char === '>') { continue format_sequence; } else { str = next_arg.toString(); if (precision !== -1) { str = str.slice(0, precision); } if (flags&FMINUS) { while (str.length < width) { str = str + ' '; } } else { while (str.length < width) { str = ' ' + str; } } break format_sequence; } } hash_parameter_key += format_string.charAt(i); } // raise case '*': i++; CHECK_FOR_WIDTH(); flags |= FWIDTH; width = READ_NUM_AFTER_ASTER('width'); if (width < 0) { flags |= FMINUS; width = -width; } continue format_sequence; case '.': if (flags&FPREC0) { #{::Kernel.raise ::ArgumentError, 'precision given twice'} } flags |= FPREC|FPREC0; precision = 0; i++; if (format_string.charAt(i) === '*') { i++; precision = READ_NUM_AFTER_ASTER('precision'); if (precision < 0) { flags &= ~FPREC; } continue format_sequence; } precision = READ_NUM('precision'); continue format_sequence; case 'd': case 'i': case 'u': arg = #{::Kernel.Integer(`GET_ARG()`)}; if (arg >= 0) { str = arg.toString(); while (str.length < precision) { str = '0' + str; } if (flags&FMINUS) { if (flags&FPLUS || flags&FSPACE) { str = (flags&FPLUS ? '+' : ' ') + str; } while (str.length < width) { str = str + ' '; } } else { if (flags&FZERO && precision === -1) { while (str.length < width - ((flags&FPLUS || flags&FSPACE) ? 1 : 0)) { str = '0' + str; } if (flags&FPLUS || flags&FSPACE) { str = (flags&FPLUS ? '+' : ' ') + str; } } else { if (flags&FPLUS || flags&FSPACE) { str = (flags&FPLUS ? '+' : ' ') + str; } while (str.length < width) { str = ' ' + str; } } } } else { str = (-arg).toString(); while (str.length < precision) { str = '0' + str; } if (flags&FMINUS) { str = '-' + str; while (str.length < width) { str = str + ' '; } } else { if (flags&FZERO && precision === -1) { while (str.length < width - 1) { str = '0' + str; } str = '-' + str; } else { str = '-' + str; while (str.length < width) { str = ' ' + str; } } } } break format_sequence; case 'b': case 'B': case 'o': case 'x': case 'X': switch (format_string.charAt(i)) { case 'b': case 'B': base_number = 2; base_prefix = '0b'; base_neg_zero_regex = /^1+/; base_neg_zero_digit = '1'; break; case 'o': base_number = 8; base_prefix = '0'; base_neg_zero_regex = /^3?7+/; base_neg_zero_digit = '7'; break; case 'x': case 'X': base_number = 16; base_prefix = '0x'; base_neg_zero_regex = /^f+/; base_neg_zero_digit = 'f'; break; } arg = #{::Kernel.Integer(`GET_ARG()`)}; if (arg >= 0) { str = arg.toString(base_number); while (str.length < precision) { str = '0' + str; } if (flags&FMINUS) { if (flags&FPLUS || flags&FSPACE) { str = (flags&FPLUS ? '+' : ' ') + str; } if (flags&FSHARP && arg !== 0) { str = base_prefix + str; } while (str.length < width) { str = str + ' '; } } else { if (flags&FZERO && precision === -1) { while (str.length < width - ((flags&FPLUS || flags&FSPACE) ? 1 : 0) - ((flags&FSHARP && arg !== 0) ? base_prefix.length : 0)) { str = '0' + str; } if (flags&FSHARP && arg !== 0) { str = base_prefix + str; } if (flags&FPLUS || flags&FSPACE) { str = (flags&FPLUS ? '+' : ' ') + str; } } else { if (flags&FSHARP && arg !== 0) { str = base_prefix + str; } if (flags&FPLUS || flags&FSPACE) { str = (flags&FPLUS ? '+' : ' ') + str; } while (str.length < width) { str = ' ' + str; } } } } else { if (flags&FPLUS || flags&FSPACE) { str = (-arg).toString(base_number); while (str.length < precision) { str = '0' + str; } if (flags&FMINUS) { if (flags&FSHARP) { str = base_prefix + str; } str = '-' + str; while (str.length < width) { str = str + ' '; } } else { if (flags&FZERO && precision === -1) { while (str.length < width - 1 - (flags&FSHARP ? 2 : 0)) { str = '0' + str; } if (flags&FSHARP) { str = base_prefix + str; } str = '-' + str; } else { if (flags&FSHARP) { str = base_prefix + str; } str = '-' + str; while (str.length < width) { str = ' ' + str; } } } } else { str = (arg >>> 0).toString(base_number).replace(base_neg_zero_regex, base_neg_zero_digit); while (str.length < precision - 2) { str = base_neg_zero_digit + str; } if (flags&FMINUS) { str = '..' + str; if (flags&FSHARP) { str = base_prefix + str; } while (str.length < width) { str = str + ' '; } } else { if (flags&FZERO && precision === -1) { while (str.length < width - 2 - (flags&FSHARP ? base_prefix.length : 0)) { str = base_neg_zero_digit + str; } str = '..' + str; if (flags&FSHARP) { str = base_prefix + str; } } else { str = '..' + str; if (flags&FSHARP) { str = base_prefix + str; } while (str.length < width) { str = ' ' + str; } } } } } if (format_string.charAt(i) === format_string.charAt(i).toUpperCase()) { str = str.toUpperCase(); } break format_sequence; case 'f': case 'e': case 'E': case 'g': case 'G': arg = #{::Kernel.Float(`GET_ARG()`)}; if (arg >= 0 || isNaN(arg)) { if (arg === Infinity) { str = 'Inf'; } else { switch (format_string.charAt(i)) { case 'f': str = arg.toFixed(precision === -1 ? 6 : precision); break; case 'e': case 'E': str = arg.toExponential(precision === -1 ? 6 : precision); break; case 'g': case 'G': str = arg.toExponential(); exponent = parseInt(str.split('e')[1], 10); if (!(exponent < -4 || exponent >= (precision === -1 ? 6 : precision))) { str = arg.toPrecision(precision === -1 ? (flags&FSHARP ? 6 : undefined) : precision); } break; } } if (flags&FMINUS) { if (flags&FPLUS || flags&FSPACE) { str = (flags&FPLUS ? '+' : ' ') + str; } while (str.length < width) { str = str + ' '; } } else { if (flags&FZERO && arg !== Infinity && !isNaN(arg)) { while (str.length < width - ((flags&FPLUS || flags&FSPACE) ? 1 : 0)) { str = '0' + str; } if (flags&FPLUS || flags&FSPACE) { str = (flags&FPLUS ? '+' : ' ') + str; } } else { if (flags&FPLUS || flags&FSPACE) { str = (flags&FPLUS ? '+' : ' ') + str; } while (str.length < width) { str = ' ' + str; } } } } else { if (arg === -Infinity) { str = 'Inf'; } else { switch (format_string.charAt(i)) { case 'f': str = (-arg).toFixed(precision === -1 ? 6 : precision); break; case 'e': case 'E': str = (-arg).toExponential(precision === -1 ? 6 : precision); break; case 'g': case 'G': str = (-arg).toExponential(); exponent = parseInt(str.split('e')[1], 10); if (!(exponent < -4 || exponent >= (precision === -1 ? 6 : precision))) { str = (-arg).toPrecision(precision === -1 ? (flags&FSHARP ? 6 : undefined) : precision); } break; } } if (flags&FMINUS) { str = '-' + str; while (str.length < width) { str = str + ' '; } } else { if (flags&FZERO && arg !== -Infinity) { while (str.length < width - 1) { str = '0' + str; } str = '-' + str; } else { str = '-' + str; while (str.length < width) { str = ' ' + str; } } } } if (format_string.charAt(i) === format_string.charAt(i).toUpperCase() && arg !== Infinity && arg !== -Infinity && !isNaN(arg)) { str = str.toUpperCase(); } str = str.replace(/([eE][-+]?)([0-9])$/, '$10$2'); break format_sequence; case 'a': case 'A': // Not implemented because there are no specs for this field type. #{::Kernel.raise ::NotImplementedError, '`A` and `a` format field types are not implemented in Opal yet'} // raise case 'c': arg = GET_ARG(); if (#{`arg`.respond_to?(:to_ary)}) { arg = #{`arg`.to_ary}[0]; } if (#{`arg`.respond_to?(:to_str)}) { str = #{`arg`.to_str}; } else { str = String.fromCharCode($coerce_to(arg, #{::Integer}, 'to_int')); } if (str.length !== 1) { #{::Kernel.raise ::ArgumentError, '%c requires a character'} } if (flags&FMINUS) { while (str.length < width) { str = str + ' '; } } else { while (str.length < width) { str = ' ' + str; } } break format_sequence; case 'p': str = #{`GET_ARG()`.inspect}; if (precision !== -1) { str = str.slice(0, precision); } if (flags&FMINUS) { while (str.length < width) { str = str + ' '; } } else { while (str.length < width) { str = ' ' + str; } } break format_sequence; case 's': str = #{`GET_ARG()`.to_s}; if (precision !== -1) { str = str.slice(0, precision); } if (flags&FMINUS) { while (str.length < width) { str = str + ' '; } } else { while (str.length < width) { str = ' ' + str; } } break format_sequence; default: #{::Kernel.raise ::ArgumentError, "malformed format string - %#{`format_string.charAt(i)`}"} } } if (str === undefined) { #{::Kernel.raise ::ArgumentError, 'malformed format string - %'} } result += format_string.slice(begin_slice, end_slice) + str; begin_slice = i + 1; } if (#{$DEBUG} && pos_arg_num >= 0 && seq_arg_num < args.length) { #{::Kernel.raise ::ArgumentError, 'too many arguments for format string'} } return result + format_string.slice(begin_slice); } end alias sprintf format end