| // Copyright 2009 The Go Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style |
| // license that can be found in the LICENSE file. |
| |
| /* |
| Package fmt implements formatted I/O with functions analogous |
| to C's printf and scanf. The format 'verbs' are derived from C's but |
| are simpler. |
| |
| |
| Printing |
| |
| The verbs: |
| |
| General: |
| %v the value in a default format |
| when printing structs, the plus flag (%+v) adds field names |
| %#v a Go-syntax representation of the value |
| %T a Go-syntax representation of the type of the value |
| %% a literal percent sign; consumes no value |
| |
| Boolean: |
| %t the word true or false |
| Integer: |
| %b base 2 |
| %c the character represented by the corresponding Unicode code point |
| %d base 10 |
| %o base 8 |
| %q a single-quoted character literal safely escaped with Go syntax. |
| %x base 16, with lower-case letters for a-f |
| %X base 16, with upper-case letters for A-F |
| %U Unicode format: U+1234; same as "U+%04X" |
| Floating-point and complex constituents: |
| %b decimalless scientific notation with exponent a power of two, |
| in the manner of strconv.FormatFloat with the 'b' format, |
| e.g. -123456p-78 |
| %e scientific notation, e.g. -1.234456e+78 |
| %E scientific notation, e.g. -1.234456E+78 |
| %f decimal point but no exponent, e.g. 123.456 |
| %F synonym for %f |
| %g %e for large exponents, %f otherwise. Precision is discussed below. |
| %G %E for large exponents, %F otherwise |
| String and slice of bytes (treated equivalently with these verbs): |
| %s the uninterpreted bytes of the string or slice |
| %q a double-quoted string safely escaped with Go syntax |
| %x base 16, lower-case, two characters per byte |
| %X base 16, upper-case, two characters per byte |
| Pointer: |
| %p base 16 notation, with leading 0x |
| The %b, %d, %o, %x and %X verbs also work with pointers, |
| formatting the value exactly as if it were an integer. |
| |
| The default format for %v is: |
| bool: %t |
| int, int8 etc.: %d |
| uint, uint8 etc.: %d, %#x if printed with %#v |
| float32, complex64, etc: %g |
| string: %s |
| chan: %p |
| pointer: %p |
| For compound objects, the elements are printed using these rules, recursively, |
| laid out like this: |
| struct: {field0 field1 ...} |
| array, slice: [elem0 elem1 ...] |
| maps: map[key1:value1 key2:value2] |
| pointer to above: &{}, &[], &map[] |
| |
| Width is specified by an optional decimal number immediately preceding the verb. |
| If absent, the width is whatever is necessary to represent the value. |
| Precision is specified after the (optional) width by a period followed by a |
| decimal number. If no period is present, a default precision is used. |
| A period with no following number specifies a precision of zero. |
| Examples: |
| %f default width, default precision |
| %9f width 9, default precision |
| %.2f default width, precision 2 |
| %9.2f width 9, precision 2 |
| %9.f width 9, precision 0 |
| |
| Width and precision are measured in units of Unicode code points, |
| that is, runes. (This differs from C's printf where the |
| units are always measured in bytes.) Either or both of the flags |
| may be replaced with the character '*', causing their values to be |
| obtained from the next operand (preceding the one to format), |
| which must be of type int. |
| |
| For most values, width is the minimum number of runes to output, |
| padding the formatted form with spaces if necessary. |
| |
| For strings, byte slices and byte arrays, however, precision |
| limits the length of the input to be formatted (not the size of |
| the output), truncating if necessary. Normally it is measured in |
| runes, but for these types when formatted with the %x or %X format |
| it is measured in bytes. |
| |
| For floating-point values, width sets the minimum width of the field and |
| precision sets the number of places after the decimal, if appropriate, |
| except that for %g/%G precision sets the total number of significant |
| digits. For example, given 12.345 the format %6.3f prints 12.345 while |
| %.3g prints 12.3. The default precision for %e, %f and %#g is 6; for %g it |
| is the smallest number of digits necessary to identify the value uniquely. |
| |
| For complex numbers, the width and precision apply to the two |
| components independently and the result is parenthesized, so %f applied |
| to 1.2+3.4i produces (1.200000+3.400000i). |
| |
| Other flags: |
| + always print a sign for numeric values; |
| guarantee ASCII-only output for %q (%+q) |
| - pad with spaces on the right rather than the left (left-justify the field) |
| # alternate format: add leading 0 for octal (%#o), 0x for hex (%#x); |
| 0X for hex (%#X); suppress 0x for %p (%#p); |
| for %q, print a raw (backquoted) string if strconv.CanBackquote |
| returns true; |
| always print a decimal point for %e, %E, %f, %F, %g and %G; |
| do not remove trailing zeros for %g and %G; |
| write e.g. U+0078 'x' if the character is printable for %U (%#U). |
| ' ' (space) leave a space for elided sign in numbers (% d); |
| put spaces between bytes printing strings or slices in hex (% x, % X) |
| 0 pad with leading zeros rather than spaces; |
| for numbers, this moves the padding after the sign |
| |
| Flags are ignored by verbs that do not expect them. |
| For example there is no alternate decimal format, so %#d and %d |
| behave identically. |
| |
| For each Printf-like function, there is also a Print function |
| that takes no format and is equivalent to saying %v for every |
| operand. Another variant Println inserts blanks between |
| operands and appends a newline. |
| |
| Regardless of the verb, if an operand is an interface value, |
| the internal concrete value is used, not the interface itself. |
| Thus: |
| var i interface{} = 23 |
| fmt.Printf("%v\n", i) |
| will print 23. |
| |
| Except when printed using the verbs %T and %p, special |
| formatting considerations apply for operands that implement |
| certain interfaces. In order of application: |
| |
| 1. If the operand is a reflect.Value, the operand is replaced by the |
| concrete value that it holds, and printing continues with the next rule. |
| |
| 2. If an operand implements the Formatter interface, it will |
| be invoked. Formatter provides fine control of formatting. |
| |
| 3. If the %v verb is used with the # flag (%#v) and the operand |
| implements the GoStringer interface, that will be invoked. |
| |
| If the format (which is implicitly %v for Println etc.) is valid |
| for a string (%s %q %v %x %X), the following two rules apply: |
| |
| 4. If an operand implements the error interface, the Error method |
| will be invoked to convert the object to a string, which will then |
| be formatted as required by the verb (if any). |
| |
| 5. If an operand implements method String() string, that method |
| will be invoked to convert the object to a string, which will then |
| be formatted as required by the verb (if any). |
| |
| For compound operands such as slices and structs, the format |
| applies to the elements of each operand, recursively, not to the |
| operand as a whole. Thus %q will quote each element of a slice |
| of strings, and %6.2f will control formatting for each element |
| of a floating-point array. |
| |
| However, when printing a byte slice with a string-like verb |
| (%s %q %x %X), it is treated identically to a string, as a single item. |
| |
| To avoid recursion in cases such as |
| type X string |
| func (x X) String() string { return Sprintf("<%s>", x) } |
| convert the value before recurring: |
| func (x X) String() string { return Sprintf("<%s>", string(x)) } |
| Infinite recursion can also be triggered by self-referential data |
| structures, such as a slice that contains itself as an element, if |
| that type has a String method. Such pathologies are rare, however, |
| and the package does not protect against them. |
| |
| When printing a struct, fmt cannot and therefore does not invoke |
| formatting methods such as Error or String on unexported fields. |
| |
| Explicit argument indexes: |
| |
| In Printf, Sprintf, and Fprintf, the default behavior is for each |
| formatting verb to format successive arguments passed in the call. |
| However, the notation [n] immediately before the verb indicates that the |
| nth one-indexed argument is to be formatted instead. The same notation |
| before a '*' for a width or precision selects the argument index holding |
| the value. After processing a bracketed expression [n], subsequent verbs |
| will use arguments n+1, n+2, etc. unless otherwise directed. |
| |
| For example, |
| fmt.Sprintf("%[2]d %[1]d\n", 11, 22) |
| will yield "22 11", while |
| fmt.Sprintf("%[3]*.[2]*[1]f", 12.0, 2, 6) |
| equivalent to |
| fmt.Sprintf("%6.2f", 12.0) |
| will yield " 12.00". Because an explicit index affects subsequent verbs, |
| this notation can be used to print the same values multiple times |
| by resetting the index for the first argument to be repeated: |
| fmt.Sprintf("%d %d %#[1]x %#x", 16, 17) |
| will yield "16 17 0x10 0x11". |
| |
| Format errors: |
| |
| If an invalid argument is given for a verb, such as providing |
| a string to %d, the generated string will contain a |
| description of the problem, as in these examples: |
| |
| Wrong type or unknown verb: %!verb(type=value) |
| Printf("%d", hi): %!d(string=hi) |
| Too many arguments: %!(EXTRA type=value) |
| Printf("hi", "guys"): hi%!(EXTRA string=guys) |
| Too few arguments: %!verb(MISSING) |
| Printf("hi%d"): hi%!d(MISSING) |
| Non-int for width or precision: %!(BADWIDTH) or %!(BADPREC) |
| Printf("%*s", 4.5, "hi"): %!(BADWIDTH)hi |
| Printf("%.*s", 4.5, "hi"): %!(BADPREC)hi |
| Invalid or invalid use of argument index: %!(BADINDEX) |
| Printf("%*[2]d", 7): %!d(BADINDEX) |
| Printf("%.[2]d", 7): %!d(BADINDEX) |
| |
| All errors begin with the string "%!" followed sometimes |
| by a single character (the verb) and end with a parenthesized |
| description. |
| |
| If an Error or String method triggers a panic when called by a |
| print routine, the fmt package reformats the error message |
| from the panic, decorating it with an indication that it came |
| through the fmt package. For example, if a String method |
| calls panic("bad"), the resulting formatted message will look |
| like |
| %!s(PANIC=bad) |
| |
| The %!s just shows the print verb in use when the failure |
| occurred. If the panic is caused by a nil receiver to an Error |
| or String method, however, the output is the undecorated |
| string, "<nil>". |
| |
| Scanning |
| |
| An analogous set of functions scans formatted text to yield |
| values. Scan, Scanf and Scanln read from os.Stdin; Fscan, |
| Fscanf and Fscanln read from a specified io.Reader; Sscan, |
| Sscanf and Sscanln read from an argument string. |
| |
| Scan, Fscan, Sscan treat newlines in the input as spaces. |
| |
| Scanln, Fscanln and Sscanln stop scanning at a newline and |
| require that the items be followed by a newline or EOF. |
| |
| Scanf, Fscanf, and Sscanf parse the arguments according to a |
| format string, analogous to that of Printf. In the text that |
| follows, 'space' means any Unicode whitespace character |
| except newline. |
| |
| In the format string, a verb introduced by the % character |
| consumes and parses input; these verbs are described in more |
| detail below. A character other than %, space, or newline in |
| the format consumes exactly that input character, which must |
| be present. A newline with zero or more spaces before it in |
| the format string consumes zero or more spaces in the input |
| followed by a single newline or the end of the input. A space |
| following a newline in the format string consumes zero or more |
| spaces in the input. Otherwise, any run of one or more spaces |
| in the format string consumes as many spaces as possible in |
| the input. Unless the run of spaces in the format string |
| appears adjacent to a newline, the run must consume at least |
| one space from the input or find the end of the input. |
| |
| The handling of spaces and newlines differs from that of C's |
| scanf family: in C, newlines are treated as any other space, |
| and it is never an error when a run of spaces in the format |
| string finds no spaces to consume in the input. |
| |
| The verbs behave analogously to those of Printf. |
| For example, %x will scan an integer as a hexadecimal number, |
| and %v will scan the default representation format for the value. |
| The Printf verbs %p and %T and the flags # and + are not implemented, |
| and the verbs %e %E %f %F %g and %G are all equivalent and scan any |
| floating-point or complex value. |
| |
| Input processed by verbs is implicitly space-delimited: the |
| implementation of every verb except %c starts by discarding |
| leading spaces from the remaining input, and the %s verb |
| (and %v reading into a string) stops consuming input at the first |
| space or newline character. |
| |
| The familiar base-setting prefixes 0 (octal) and 0x |
| (hexadecimal) are accepted when scanning integers without |
| a format or with the %v verb. |
| |
| Width is interpreted in the input text but there is no |
| syntax for scanning with a precision (no %5.2f, just %5f). |
| If width is provided, it applies after leading spaces are |
| trimmed and specifies the maximum number of runes to read |
| to satisfy the verb. For example, |
| Sscanf(" 1234567 ", "%5s%d", &s, &i) |
| will set s to "12345" and i to 67 while |
| Sscanf(" 12 34 567 ", "%5s%d", &s, &i) |
| will set s to "12" and i to 34. |
| |
| In all the scanning functions, a carriage return followed |
| immediately by a newline is treated as a plain newline |
| (\r\n means the same as \n). |
| |
| In all the scanning functions, if an operand implements method |
| Scan (that is, it implements the Scanner interface) that |
| method will be used to scan the text for that operand. Also, |
| if the number of arguments scanned is less than the number of |
| arguments provided, an error is returned. |
| |
| All arguments to be scanned must be either pointers to basic |
| types or implementations of the Scanner interface. |
| |
| Like Scanf and Fscanf, Sscanf need not consume its entire input. |
| There is no way to recover how much of the input string Sscanf used. |
| |
| Note: Fscan etc. can read one character (rune) past the input |
| they return, which means that a loop calling a scan routine |
| may skip some of the input. This is usually a problem only |
| when there is no space between input values. If the reader |
| provided to Fscan implements ReadRune, that method will be used |
| to read characters. If the reader also implements UnreadRune, |
| that method will be used to save the character and successive |
| calls will not lose data. To attach ReadRune and UnreadRune |
| methods to a reader without that capability, use |
| bufio.NewReader. |
| */ |
| package fmt |