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v/vlib/strconv/format.md

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v_printf/v_sprintf

These are v implementations of the C language printf and sprintf functions.

Note: These functions are platform dependent in C, but in V they are platform independent.

v_sprintf

v_sprintf has a variable number of parameters. The first is a format string to control the appearance of the final string. Each format specifier (%s, %d, etc.) in the format string is replaced by the textual version of the following parameters.

import strconv

fn main() {
	a := 'World'
	s := strconv.v_sprintf('Hello %s!', a)
	println(s)
}
Hello World!

v_printf

v_printf creates the same modified string as v_sprintf, using the same format specifiers, but it will immediately print the modified string to stdout instead of returning a string.

Syntax

The syntax for a format specifier is:

%[parameter][flags][width][.precision][length]type

Flags field

The Flags field may be zero or more (in any order) of:

Character Description
- (minus) Left-align the output of this specifier. (The default is to right-align the output.)
+ (plus) Prepends a plus for positive signed-numeric types. positive = +, negative = -. (The default doesn't prepend anything to positive numbers.)
0 (zero) When the 'width' option is specified, prepends zeros for numeric types. (The default prepends spaces.) For example, printf("%4X",3) produces 3, while printf("%04X",3) produces 0003.

Width field

The Width field specifies a maximum number of characters to output, and is typically used to pad fixed-width fields in tabulated output, it causes truncation of oversized fields.

The width field may be omitted, or it may be a numeric integer value, or may also be specified by a parameter when indicated by an asterisk *. For example, v_printf("%*.s", 5, my_string) will result in mystring being printed, with a total width of 5 characters.

Length field

The Length field can be omitted or be any of:

Character Description
hh For integer types, causes printf to expect an byte or i8 argument.
h For integer types, causes printf to expect an int16 or u16 argument.
l For integer types, causes printf to expect an i64 or u64 argument.
ll For integer types, causes printf to expect an i64 or u64 argument.

Type field

The Type field can be any of:

Character Description
% Prints a literal % character (this type doesn't accept any flags, width, precision, length fields).
d, i int as a signed int %d and %i are synonymous for output. The size of the argument is specified by the length field.
u unsigned int. The size of the argument is specified by the length field.
f, F double in normal notation. f and F only differs in how the strings are printed: lowercase or uppercase.
e, E double in scientific notation.e and E only differs in how the strings are printed: lowercase or uppercase.
g, G double in automatic notation.g and G only differs in how the strings are printed: lowercase or uppercase.
x, X unsigned int as a hexadecimal number. x uses lower-case letters and X uses upper-case.
s string
p void * (pointer to void) in an implementation-defined format.
c char (character).

Examples

various types

import strconv

a0 := u32(10)
b0 := 200
c0 := byte(12)
s0 := 'ciAo'
ch0 := `B`
f0 := 0.312345
f1 := 200000.0
sc0 := 'ciao: [%-08u] %d %hhd [%8s] [%08X] [%-20.4f] [%-20.4f] [%c]'
temp_s := strconv.v_sprintf(sc0, a0, b0, c0, s0, b0, f0, f1, ch0)
println(temp_s)
ciao: [10      ] 200 12 [    ciAo] [000000C8] [0.3123              ] [200000.0000         ] [B]

integer

import strconv

a := byte(12)
b := i16(13)
c := 14
d := i64(15)
sc1 := '==>%hhd %hd %d %ld'
temp_s := strconv.v_sprintf(sc1, a, b, c, d)
println(temp_s)
==>12 13 14 15

unsigned integer

import strconv

a1 := byte(0xff)
b1 := u16(0xffff)
c1 := u32(0xffffffff)
d1 := u64(-1)
sc2 := '%hhu %hu %u %lu'
temp_s := strconv.v_sprintf(sc2, a1, b1, c1, d1)
println(temp_s)
255 65535 4294967295 18446744073709551615

hexadecimal

import strconv

a1 := byte(0xff)
b1 := i16(0xffff)
c1 := u32(0xffffffff)
d1 := u64(-1)
sc3 := '%hhx %hx %x %lx'
temp_s := strconv.v_sprintf(sc3, a1, b1, c1, d1)
println(temp_s)
ff ffff ffffffff ffffffffffffffff

hexadecimal

import strconv

a2 := 125
sc7 := '[%9x] [%9X] [%-9x] [%-9X] [%09x] [%09X]'
temp_s := strconv.v_sprintf(sc7, a2, a2, a2, a2, a2, a2)
println(temp_s)
[       7d] [       7D] [7d       ] [7D       ] [00000007d] [00000007D]

floating points

import strconv

f0 := 0.312345
f1 := 200000.0
f2 := -1234.300e6
f3 := 1234.300e-6
sc4 := '[%-20.3e] [%20.3e] [%-020.3e] [%-020.3E] [%-020.3e] [%-020.3e]'
temp_s := strconv.v_sprintf(sc4, f0, f1, f1, f1, f2, f3)
println(temp_s)
[3.123e-01           ] [           2.000e+05] [2.000e+05           ] [2.000E+05           ] [-1.234e+09          ] [1.234e-03           ]

float automatic notations

import strconv

mut ft := -1e-7
mut x := 0
sc8 := '[%20g][%20G]|'
for x < 12 {
	temp_s := strconv.v_sprintf(sc8, ft, ft)
	println('${temp_s}\n')
	ft = ft * 10.0
	x++
}
[              -1e-07][              -1E-07]|
[              -1e-06][              -1E-06]|
[              -1e-05][              -1E-05]|
[             -0.0001][             -0.0001]|
[              -0.001][              -0.001]|
[               -0.01][               -0.01]|
[                -0.1][                -0.1]|
[                  -1][                  -1]|
[                 -10][                 -10]|
[                -100][                -100]|
[               -1000][               -1000]|
[              -10000][              -10000]|

Utility functions

The format module also has some utility functions:

// calling struct
struct BF_param {
  pad_ch       byte       = ` `     // padding char
  len0         int        = -1      // default len for whole the number or string
  len1         int        = 6       // number of decimal digits, if needed
  positive     bool       = true    // mandatory: the sign of the number passed
  sign_flag    bool       = false   // flag for print sign as prefix in padding
  allign       Align_text = .right  // alignment of the string
  rm_tail_zero bool       = false   // remove the tail zeros from floats
}

// utilities
fn format_dec(d u64, p BF_param) string
fn format_fl(f f64, p BF_param) string
fn format_es(f f64, p BF_param) string
fn remove_tail_zeros(s string) string

format_dec format the integer number using the parameters in the BF_param struct.

format_fl format a float number in normal notation using the parameters in the BF_param struct.

format_es format a float number in scientific notation using the parameters in the BF_param struct.

remove_tail_zeros removes the tailing zeros from a floating point number as string.