Warning

This package has been unmaintained for a while, and contains serious bugs. Format.jl is a new version of this package that supports a lot of new features and contains many bug fixes. To update, replace every instance of Formatting with Format, replace fmt with pyfmt, and replace sprintf1 with cfmt.

Formatting

This package offers Python-style general formatting and c-style numerical formatting (for speed).

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Getting Started

This package is pure Julia. Setting up this package is like setting up other Julia packages:

Pkg.add("Formatting")

To start using the package, you can simply write

using Formatting

This package depends on Julia of version 0.7 or above. It has no other dependencies. The package is MIT-licensed.

Python-style Types and Functions

Types to Represent Formats

This package has two types FormatSpec and FormatExpr to represent a format specification.

In particular, FormatSpec is used to capture the specification of a single entry. One can compile a format specification string into a FormatSpec instance as

fspec = FormatSpec("d")
fspec = FormatSpec("<8.4f")

Please refer to Python's format specification language for details.

FormatExpr captures a formatting expression that may involve multiple items. One can compile a formatting string into a FormatExpr instance as

fe = FormatExpr("{1} + {2}")
fe = FormatExpr("{1:d} + {2:08.4e} + {3|>abs2}")

Please refer to Python's format string syntax for details.

Note: If the same format is going to be applied for multiple times. It is more efficient to first compile it.

Formatted Printing

One can use printfmt and printfmtln for formatted printing:

• printfmt(io, fe, args...)

• printfmt(fe, args...)

  Print given arguments using given format fe. Here fe can be a formatting string, an instance of FormatSpec or FormatExpr.

  Examples

  printfmt("{1:>4s} + {2:.2f}", "abc", 12) # --> print(" abc + 12.00")
  printfmt("{} = {:#04x}", "abc", 12) # --> print("abc = 0x0c") 
  
  fs = FormatSpec("#04x")
  printfmt(fs, 12)   # --> print("0x0c")
  
  fe = FormatExpr("{} = {:#04x}")
  printfmt(fe, "abc", 12)   # --> print("abc = 0x0c")

  Notes

  If the first argument is a string, it will be first compiled into a FormatExpr, which implies that you can not use specification-only string in the first argument.

  printfmt("{1:d}", 10)   # OK, "{1:d}" can be compiled into a FormatExpr instance
  printfmt("d", 10)       # Error, "d" can not be compiled into a FormatExpr instance
                          # such a string to specify a format specification for single argument
  
  printfmt(FormatSpec("d"), 10)  # OK
  printfmt(FormatExpr("{1:d}", 10)) # OK

• printfmtln(io, fe, args...)

• printfmtln(fe, args...)

  Similar to printfmt except that this function print a newline at the end.

Formatted String

One can use fmt to format a single value into a string, or format to format one to multiple arguments into a string using an format expression.

• fmt(fspec, a)

  Format a single value using a format specification given by fspec, where fspec can be either a string or an instance of FormatSpec.

• format(fe, args...)

  Format arguments using a format expression given by fe, where fe can be either a string or an instance of FormatSpec.

Difference from Python's Format

At this point, this package implements a subset of Python's formatting language (with slight modification). Here is a summary of the differences:

• g and G for floating point formatting have not been supported yet. Please use f, e, or E instead.

• The package currently provides default alignment, left alignment < and right alignment >. Other form of alignment such as centered alignment ^ has not been supported yet.

• In terms of argument specification, it supports natural ordering (e.g. {} + {}), explicit position (e.g. {1} + {2}). It hasn't supported named arguments or fields extraction yet. Note that mixing these two modes is not allowed (e.g. {1} + {}).

• The package provides support for filtering (for explicitly positioned arguments), such as {1|>lowercase} by allowing one to embed the |> operator, which the Python counter part does not support.

C-style functions

The c-style part of this package aims to get around the limitation that @sprintf has to take a literal string argument. The core part is basically a c-style print formatter using the standard @sprintf macro. It also adds functionalities such as commas separator (thousands), parenthesis for negatives, stripping trailing zeros, and mixed fractions.

Usage and Implementation

The idea here is that the package compiles a function only once for each unique format string within the Formatting.* name space, so repeated use is faster. Unrelated parts of a session using the same format string would reuse the same function, avoiding redundant compilation. To avoid the proliferation of functions, we limit the usage to only 1 argument. Practical consideration would suggest that only dozens of functions would be created in a session, which seems manageable.

Usage

using Formatting

fmt = "%10.3f"
s = sprintf1( fmt, 3.14159 ) # usage 1. Quite performant. Easiest to switch to.

fmtrfunc = generate_formatter( fmt ) # usage 2. This bypass repeated lookup of cached function. Most performant.
s = fmtrfunc( 3.14159 )

s = format( 3.14159, precision=3 ) # usage 3. Most flexible, with some non-printf options. Least performant.

Speed

sprintf1: Speed penalty is about 20% for floating point and 30% for integers.

If the formatter is stored and used instead (see the example using generate_formatter above), the speed penalty reduces to 10% for floating point and 15% for integers.

Commas

This package also supplements the lack of thousand separator e.g. "%'d", "%'f", "%'s".

Note: "%'s" behavior is that for small enough floating point (but not too small), thousand separator would be used. If the number needs to be represented by "%e", no separator is used.

Flexible format function

This package contains a run-time number formatter format function, which goes beyond the standard sprintf functionality.

An example:

s = format( 1234, commas=true ) # 1,234
s = format( -1234, commas=true, parens=true ) # (1,234)

The keyword arguments are (Bold keywards are not printf standard)

• width. Integer. Try to fit the output into this many characters. May not be successful. Sacrifice space first, then commas.
• precision. Integer. How many decimal places.
• leftjustified. Boolean
• zeropadding. Boolean
• commas. Boolean. Thousands-group separator.
• signed. Boolean. Always show +/- sign?
• positivespace. Boolean. Prepend an extra space for positive numbers? (so they align nicely with negative numbers)
• parens. Boolean. Use parenthesis instead of "-". e.g. (1.01) instead of -1.01. Useful in finance. Note that you cannot use signed and parens option at the same time.
• stripzeros. Boolean. Strip trailing '0' to the right of the decimal (and to the left of 'e', if any ).
  • It may strip the decimal point itself if all trailing places are zeros.
  • This is true by default if precision is not given, and vice versa.
• alternative. Boolean. See # alternative form explanation in standard printf documentation
• conversion. length=1 string. Default is type dependent. It can be one of aAeEfFoxX. See standard printf documentation.
• mixedfraction. Boolean. If the number is rational, format it in mixed fraction e.g. 1_1/2 instead of 3/2
• mixedfractionsep. Default _
• fractionsep. Default /
• fractionwidth. Integer. Try to pad zeros to the numerator until the fractional part has this width
• tryden. Integer. Try to use this denominator instead of a smaller one. No-op if it'd lose precision.
• suffix. String. This strings will be appended to the output. Useful for units/%
• autoscale. Symbol, default :none. It could be :metric, :binary, or :finance.
  • :metric implements common SI symbols for large and small numbers e.g. M, k, μ, n
  • :binary implements common ISQ symbols for large numbers e.g. Ti, Gi, Mi, Ki
  • :finance implements common finance/news symbols for large numbers e.g. b (billion), m (millions)

See the test script for more examples.