Combinator Formatting

Alex Shinn
Download Version 0.6



A library of procedures for formatting Scheme objects to text in various ways, and for easily concatenating, composing and extending these formatters efficiently without resorting to capturing and manipulating intermediate strings.



1  Table of Contents

  1. Table of Contents
  2. Installation
  3. Background
  4. Usage
  5. Specification
    1. Formatting Objects
    2. Formatting Numbers
    3. Formatting Space
    4. Concatenation
    5. Padding and Trimming
    6. Format Variables
    7. Columnar Formatting
  6. C Formatting
    1. C Formatting Basics
    2. C Preprocessor Formatting
    3. Customizing C Style
    4. C Formatter Index
  7. Formatting with Color
  8. Unicode
  9. Optimizing
  10. Common Lisp Format Cheat Sheet
  11. References


2  Installation

Available for Chicken as the fmt egg, providing the fmt, fmt-c, fmt-color and fmt-unicode extensions. To install manually for Chicken just run "chicken-setup" in the fmt directory.

For Gauche run "make gauche && make install-gauche". The modules are installed as text.fmt, text.fmt.c, text.fmt.color and text.fmt.unicode.

For MzScheme you can download and install the latest fmt.plt yourself from:

http://synthcode.com/scheme/fmt/fmt.plt

To build the fmt.plt for yourself you can run "make mzscheme".

For Scheme48 the package descriptions are in fmt-scheme48.scm:

> ,config ,load fmt-scheme48.scm
> ,open fmt

For other implementations you'll need to load SRFI's 1, 6, 13, 33 (sample provided) and 69 (also provided), and then load the following files:

  (load "let-optionals.scm")  ; if you don't have LET-OPTIONALS*
  (load "read-line.scm")      ; if you don't have READ-LINE
  (load "string-ports.scm")   ; if you don't have CALL-WITH-OUTPUT-STRING
  (load "make-eq-table.scm")
  (load "mantissa.scm")
  (load "fmt.scm")
  (load "fmt-pretty.scm")
  (load "fmt-column.scm")
  (load "fmt-c.scm")          ; optional C formatting utilities
  (load "fmt-color.scm")      ; optional color utilities
  (load "fmt-unicode.scm")    ; optional Unicode-aware formatting,
                              ;   also requires SRFI-4 or SRFI-66

3  Background

There are several approaches to text formatting. Building strings to display is not acceptable, since it doesn't scale to very large output. The simplest realistic idea, and what people resort to in typical portable Scheme, is to interleave display and write and manual loops, but this is both extremely verbose and doesn't compose well. A simple concept such as padding space can't be achieved directly without somehow capturing intermediate output.

The traditional approach is to use templates - typically strings, though in theory any object could be used and indeed Emacs' mode-line format templates allow arbitrary sexps. Templates can use either escape sequences (as in C's printf and CL's format) or pattern matching (as in Visual Basic's Format, Perl6's form, and SQL date formats). The primary disadvantage of templates is the relative difficulty (usually impossibility) of extending them, their opaqueness, and the unreadability that arises with complex formats. Templates are not without their advantages, but they are already addressed by other libraries such as SRFI-28 and SRFI-48.

This library takes a combinator approach. Formats are nested chains of closures, which are called to produce their output as needed. The primary goal of this library is to have, first and foremost, a maximally expressive and extensible formatting library. The next most important goal is scalability - to be able to handle arbitrarily large output and not build intermediate results except where necessary. The third goal is brevity and ease of use.

4  Usage

The primary interface is the fmt procedure:

(fmt <output-dest> <format> ...)

where <output-dest> has the same semantics as with format, specifically it can be an output-port, #t to indicate the current output port, or #f to accumulate output into a string.

Each <format> should be a format closure as discussed below. As a convenience, non-procedure arguments are also allowed and are formatted similar to display, so that

(fmt #f "Result: " res nl)

would return the string "Result: 42n", assuming RES is bound to 42.

nl is the newline format combinator.

5  Specification

The procedure names have gone through several variations, and I'm still open to new suggestions. The current approach is to use abbreviated forms of standard output procedures when defining an equivalent format combinator (thus display becomes dsp and write becomes wrt), and to use an fmt- prefix for utilities and less common combinators. Variants of the same formatter get a /<variant> suffix.

5.1  Formatting Objects

(dsp <obj>)

Outputs <obj> using display semantics. Specifically, strings are output without surrounding quotes or escaping and characters are written as if by write-char. Other objects are written as with write (including nested strings and chars inside <obj>). This is the default behavior for top-level formats in fmt, cat and most other higher-order combinators.

(wrt <obj>)

Outputs <obj> using write semantics. Handles shared structures as in
SRFI-38.

(wrt/unshared <obj>)

As above, but doesn't handle shared structures. Infinite loops can still be avoided if used inside a combinator that truncates data (see trim and fit below).

(pretty <obj>)

Pretty-prints <obj>. Also handles shared structures. Unlike many other pretty printers, vectors and data lists (lists that don't begin with a (nested) symbol), are printed in tabular format when there's room, greatly saving vertical space.

(pretty/unshared <obj>)

As above but without sharing.

(slashified <str> [<quote-ch> <esc-ch> <renamer>])

Outputs the string <str>, escaping any quote or escape characters. If <esc-ch> is #f escapes only the <quote-ch> by doubling it, as in SQL strings and CSV values. If <renamer> is provided, it should be a procedure of one character which maps that character to its escape value, e.g. #\newline => #\n, or #f if there is no escape value.

(fmt #f (slashified "hi, "bob!""))

=> "hi, "bob!""

(maybe-slashified <str> <pred> [<quote-ch> <esc-ch> <renamer>])

Like slashified, but first checks if any quoting is required (by the existence of either any quote or escape characters, or any character matching <pred>), and if so outputs the string in quotes and with escapes. Otherwise outputs the string as is.

(fmt #f (maybe-slashified "foo" char-whitespace? #\"))

=> "foo"

(fmt #f (maybe-slashified "foo bar" char-whitespace? #\"))

=> ""foo bar""

(fmt #f (maybe-slashified "foo"bar"baz" char-whitespace? #\"))

=> ""foo"bar"baz""

5.2  Formatting Numbers

(num <n> [<radix> <precision> <sign> <comma> <comma-sep> <decimal-sep>])

Formats a single number <n>. You can optionally specify any <radix> from 2 to 36 (even if <n> isn't an integer). <precision> forces a fixed-point format.

A <sign> of #t indicates to output a plus sign (+) for positive integers. However, if <sign> is a character, it means to wrap the number with that character and its mirror opposite if the number is negative. For example, #\( prints negative numbers in parenthesis, financial style: -3.14 => (3.14)

<comma> is an integer specifying the number of digits between commas. Variable length, as in subcontinental-style, is not yet supported.

<comma-sep> is the character to use for commas, defaulting to #\,.

<decimal-sep> is the character to use for decimals, defaulting to #\., or to #\, (European style) if <comma-sep> is already #\..

These parameters may seem unwieldy, but they can also take their defaults from state variables, described below.

(num/comma <n> [<base> <precision> <sign>])

Shortcut for num to print with commas.

(fmt #f (num/comma 1234567))

=> "1,234,567"

(num/si <n> [<base> <suffix>])

Abbreviates <n> with an SI suffix as in the -h or --si option to many GNU commands. The base defaults to 1024, using suffix names like Ki, Mi, Gi, etc. Other bases (e.g. the standard 1000) have the suffixes k, M, G, etc.

The <suffix> argument is appended only if an abbreviation is used.

(fmt #f (num/si 608))

=> "608"

(fmt #f (num/si 3986))

=> "3.9Ki"

(fmt #f (num/si 3986 1000 "B"))

=> "4kB"

See http://www.bipm.org/en/si/si_brochure/chapter3/prefixes.html.

(num/fit <width> <n> . <ARGS>)

Like num, but if the result doesn't fit in <width>, output instead a string of hashes (with the current <precision>) rather than showing an incorrectly truncated number. For example

(fmt #f (fix 2 (num/fit 4 12.345))) => "#.##".

5.3  Formatting Space

nl

Outputs a newline.

fl

Short for "fresh line," outputs a newline only if we're not already at the start of a line.

(space-to <column>)

Outputs spaces up to the given <column>. If the current column is already >= <column>, does nothing.

(tab-to [<tab-width>])

Outputs spaces up to the next tab stop, using tab stops of width <tab-width>, which defaults to 8. If already on a tab stop, does nothing. If you want to ensure you always tab at least one space, you can use (cat " " (tab-to width)).

fmt-null

Outputs nothing (useful in combinators and as a default noop in conditionals).

5.4  Concatenation

(cat <format> ...)

Concatenates the output of each <format>.

(apply-cat <list>)

Equivalent to (apply cat <list>) but may be more efficient.

(fmt-join <formatter> <list> [<sep>])

Formats each element <elt> of <list> with (<formatter> <elt>), inserting <sep> in between. <sep> defaults to the empty string, but can be any format.

(fmt #f (fmt-join dsp '(a b c) ", "))

=> "a, b, c"

(fmt-join/prefix <formatter> <list> [<sep>])

(fmt-join/suffix <formatter> <list> [<sep>])

(fmt #f (fmt-join/prefix dsp '(usr local bin) "/"))

=> "/usr/local/bin"

As fmt-join, but inserts <sep> before/after every element.

(fmt-join/last <formatter> <last-formatter> <list> [<sep>])

As fmt-join, but the last element of the list if formatted with <last-formatter> instead.

(fmt-join/dot <formatter> <dot-formatter> <list> [<sep>])

As fmt-join, but if the list is a dotted list, then formats the dotted value with <dot-formatter> instead.

5.5  Padding and Trimming

(pad <width> <format> ...)

(pad/left <width> <format> ...)

(pad/both <width> <format> ...)

Analogs of SRFI-13 string-pad, these add extra space to the left, right or both sides of the output generated by the <format>s to pad it to <width>. If <width> is exceeded has no effect. pad/both will include an extra space on the right side of the output if the difference is odd.

pad does not accumulate any intermediate data.

Note these are column-oriented padders, so won't necessarily work with multi-line output (padding doesn't seem a likely operation for multi-line output).

(trim <width> <format> ...)

(trim/left <width> <format> ...)

(trim/both <width> <format> ...)

Analogs of SRFI-13 string-trim, truncates the output of the <format>s to force it in under <width> columns. As soon as any of the <format>s exceed <width>, stop formatting and truncate the result, returning control to whoever called trim. If <width> is not exceeded has no effect.

If a truncation ellipse is set (e.g. with the ellipses procedure below), then when any truncation occurs trim and trim/left will append and prepend the ellipse, respectively. trim/both will both prepend and append. The length of the ellipse will be considered when truncating the original string, so that the total width will never be longer than <width>.

(fmt #f (ellipses "..." (trim 5 "abcde")))

=> "abcde"

(fmt #f (ellipses "..." (trim 5 "abcdef")))

=> "ab..."

(trim/length <width> <format> ...)

A variant of trim which acts on the actual character count rather than columns, useful for truncating potentially cyclic data.

(fit <width> <format> ...)

(fit/left <width> <format> ...)

(fit/both <width> <format> ...)

A combination of pad and trunc, ensures the output width is exactly <width>, truncating if it goes over and padding if it goes under.

5.6  Format Variables

You may have noticed many of the formatters are aware of the current column. This is because each combinator is actually a procedure of one argument, the current format state, which holds basic information such as the row, column, and any other information that a format combinator may want to keep track of. The basic interface is:

(fmt-let <name> <value> <format> ...)

(fmt-bind <name> <value> <format> ...)

fmt-let sets the name for the duration of the <format>s, and restores it on return. fmt-bind sets it without restoring it.

A convenience control structure can be useful in combination with these states:

(fmt-if <pred> <pass> [<fail>])

<pred> takes one argument (the format state) and returns a boolean result. If true, the <pass> format is applied to the state, otherwise <fail> (defaulting to the identity) is applied.

Many of the previously mentioned combinators have behavior which can be altered with state variables. Although fmt-let and fmt-bind could be used, these common variables have shortcuts:

(radix <k> <format> ...)

(fix <k> <format> ...)

These alter the radix and fixed point precision of numbers output with dsp, wrt, pretty or num. These settings apply recursively to all output data structures, so that

(fmt #f (radix 16 '(70 80 90)))

will return the string "(#x46 #x50 #x5a)". Note that read/write invariance is essential, so for dsp, wrt and pretty the radix prefix is always included when not decimal. Use num if you want to format numbers in alternate bases without this prefix.

(comma-char <k> <format> ...)

(decimal-char <k> <format> ...)

comma-char and decimal-char set the defaults for number formatting.

(pad-char <k> <format> ...)

The pad-char sets the character used by space-to, tab-to, pad/*, and fit/*, and defaults to #\space.

  (define (print-table-of-contents alist)
    (define (print-line x)
      (cat (car x) (space-to 72) (pad 3 (cdr x))))
    (fmt #t (pad-char #\. (fmt-join print-line alist nl))))

  (print-table-of-contents
   '(("An Unexpected Party" . 29)
     ("Roast Mutton" . 60)
     ("A Short Rest" . 87)
     ("Over Hill and Under Hill" . 100)
     ("Riddles in the Dark" . 115)))

would output

  An Unexpected Party.....................................................29
  Roast Mutton............................................................60
  A Short Rest............................................................87
  Over Hill and Under Hill...............................................100
  Riddles in the Dark....................................................115

(ellipse <ell> <format> ...)

Sets the truncation ellipse to <ell>, would should be a string or character.

(with-width <width> <format> ...)

Sets the maximum column width used by some formatters. The default is 78.

5.7  Columnar Formatting

(columnar <column> ...)

Formats each <column> side-by-side, i.e. as though each were formatted separately and then the individual lines concatenated together. The current column width is divided evenly among the columns, and all but the last column are right-padded. For example

(fmt #t (columnar (dsp "abcndefn") (dsp "123n456n")))

outputs

  abc     123
  def     456

assuming a 16-char width (the left side gets half the width, or 8 spaces, and is left aligned). Note that we explicitly use DSP instead of the strings directly. This is because columnar treats raw strings as literals inserted into the given location, to be used as borders, for example:

  (fmt #t (columnar "/* " (dsp "abcndefn")
                    " | " (dsp "123n456n")
                    " */"))

would output

  /* abc | 123 */
  /* def | 456 */

You may also prefix any column with any of the symbols 'left, 'right or 'center to control the justification. The symbol 'infinite can be used to indicate the column generates an infinite stream of output.

You can further prefix any column with a width modifier. Any positive integer is treated as a fixed width, ignoring the available width. Any real number between 0 and 1 indicates a fraction of the available width (after subtracting out any fixed widths). Columns with unspecified width divide up the remaining width evenly.

(fmt-columns <column> ...)

The low-level formatter on which columnar is based. Each <column> must be a list of 2-3 elements:

(<line-formatter> <line-generator> [<infinite?>])

where <line-generator> is the column generator as above, and the <line-formatter> is how each line is formatted. Raw concatenation of each line is performed, without any spacing or width adjustment. <infinite?>, if true, indicates this generator produces an infinite number of lines and termination should be determined without it.

(wrap-lines <format> ...)

Behaves like cat, except text is accumulated and lines are optimally wrapped to fit in the current width as in the Unix fmt(1) command.

(justify <format> ...)

Like wrap-lines except the lines are full-justified.

  (define func
    '(define (fold kons knil ls)
       (let lp ((ls ls) (acc knil))
         (if (null? ls) acc (lp (cdr ls) (kons (car ls) acc))))))

  (define doc
    (string-append
      "The fundamental list iterator.  Applies KONS to each element "
      "of LS and the result of the previous application, beginning "
      "with KNIL.  With KONS as CONS and KNIL as '(), equivalent to REVERSE."))

  (fmt #t (columnar (pretty func) " ; " (justify doc)))

outputs

  (define (fold kons knil ls)          ; The   fundamental   list   iterator.
    (let lp ((ls ls) (acc knil))       ; Applies  KONS  to  each  element  of
      (if (null? ls)                   ; LS  and  the  result of the previous
          acc                          ; application,  beginning  with  KNIL.
          (lp (cdr ls)                 ; With  KONS  as CONS and KNIL as '(),
              (kons (car ls) acc)))))  ; equivalent to REVERSE.

(fmt-file <pathname>)

Simply displayes the contents of the file <pathname> a line at a time, so that in typical formatters such as columnar only constant memory is consumed, making this suitable for formatting files of arbitrary size.

(line-numbers [<start>])

A convenience utility, just formats an infinite stream of numbers (in the current radix) beginning with <start>, which defaults to 1.

  (fmt #t (columnar 4 'right 'infinite (line-numbers)
                    " " (fmt-file "read-line.scm")))

   1 
   2 (define (read-line . o)
   3   (let ((port (if (pair? o) (car o) (current-input-port))))
   4     (let lp ((res '()))
   5       (let ((c (read-char port)))
   6         (if (or (eof-object? c) (eqv? c #\newline))
   7             (list->string (reverse res))
   8             (lp (cons c res)))))))
   9

6  C Formatting

6.1  C Formatting Basics

For purposes such as writing wrappers, code-generators, compilers or other language tools, people often need to generate or emit C code. Without a decent library framework it's difficult to maintain proper indentation. In addition, for the Scheme programmer it's tedious to work with all the context sensitivities of C, such as the expression vs. statement distinction, special rules for writing preprocessor macros, and when precedence rules require parenthesis. Fortunately, context is one thing this formatting library is good at keeping track of. The C formatting interface tries to make it as easy as possible to generate C code without getting in your way.

There are two approaches to using the C formatting extensions - procedural and sexp-oriented. In the procedural interface, C operators are made available as formatters with a "c-" prefix, literals are converted to their C equivalents and symbols are output as-is (you're responsible for making sure they are valid C identifiers). Indentation is handled automatically.

(fmt #t (c-if 1 2 3))

outputs

  if (1) {
      2;
  } else {
      3;
  }

In addition, the formatter knows when you're in an expression and when you're in a statement, and behaves accordingly, so that

(fmt #t (c-if (c-if 1 2 3) 4 5))

outputs

  if (1 ? 2 : 3) {
      4;
  } else {
      5;
  }

Similary, c-begin, used for sequencing, will separate with semi-colons in a statement and commas in an expression.

Moreover, we also keep track of the final expression in a function and insert returns for you:

(fmt #t (c-fun 'int 'foo '() (c-if (c-if 1 2 3) 4 5)))

outputs

  int foo () {
      if (1 ? 2 : 3) {
          return 4;
      } else {
          return 5;
      }
  }

although it knows that void functions don't return.

Switch statements insert breaks by default if they don't return:

  (fmt #t (c-switch 'y
            (c-case 1 (c+= 'x 1))
            (c-default (c+= 'x 2))))

  switch (y) {
      case 1:
          x += 1;
          break;
      default:
          x += 2;
          break;
  }

though you can explicitly fallthrough if you want:

  (fmt #t (c-switch 'y
            (c-case/fallthrough 1 (c+= 'x 1))
            (c-default (c+= 'x 2))))

  switch (y) {
      case 1:
          x += 1;
      default:
          x += 2;
          break;
  }

Operators are available with just a "c" prefix, e.g. c+, c-, c*, c/, etc. c++ is a prefix operator, c++/post is postfix. ||, | and |= are written as c-or, c-bit-or and c-bit-or= respectively.

Function applications are written with c-apply. Other control structures such as c-for and c-while work as expected. The full list is in the procedure index below.

When a C formatter encounters an object it doesn't know how to write (including lists and records), it outputs them according to the format state's current 'gen variable. This allows you to specify generators for your own types, e.g. if you are using your own AST records in a compiler.

If the 'gen variable isn't set it defaults to the c-expr/sexp procedure, which formats an s-expression as if it were C code. Thus instead of c-apply you can just use a list. The full API is available via normal s-expressions - formatters that aren't keywords in C are prefixed with a % or otherwise made invalid C identifiers so that they can't be confused with function application.

6.2  C Preprocessor Formatting

C preprocessor formatters also properly handle their surrounding context, so you can safely intermix them in the normal flow of C code.

  (fmt #t (c-switch 'y
            (c-case 1 (c= 'x 1))
            (cpp-ifdef 'H_TWO (c-case 2 (c= 'x 4)))
            (c-default (c= 'x 5))))

  switch (y) {
      case 1:
          x = 1;
          break;

  #ifdef H_TWO
      case 2:
          x = 4;
          break;
  #endif /* H_TWO */
      default:
          x = 5;
          break;
  }

Macros can be handled with cpp-define, which knows to wrap individual variable references in parenthesis:

(fmt #t (cpp-define '(min x y) (c-if (c< 'x 'y) 'x 'y)))

  #define min(x, y) (((x) < (y)) ? (x) : (y))

As with all C formatters, the CPP output is pretty printed as needed, and if it wraps over several lines the lines are terminated with a backslash.

To write a C header file that is included at most once, you can wrap the entire body in cpp-wrap-header:

  (fmt #t (cpp-wrap-header "FOO_H"
            (c-extern (c-prototype 'int 'foo '()))))

  #ifndef FOO_H
  #define FOO_H

  extern int foo ();

  #endif /* ! FOO_H */

6.3  Customizing C Style

The output uses a simplified K&R style with 4 spaces for indentation by default. The following state variables let you override the style:

'indent-space

how many spaces to indent bodies, default 4

'switch-indent-space

how many spaces to indent switch clauses, also defaults to 4

'newline-before-brace?

insert a newline before an open brace (non-K&R), defaults to #f

'braceless-bodies?

omit braces when we can prove they aren't needed

'non-spaced-ops?

omit spaces between operators and operands for groups of variables and literals (e.g. "a+b+3" instead of "a + b + 3"}

'no-wrap?

Don't wrap function calls and long operator groups over mulitple lines. Functions and control structures will still use multiple lines.

The C formatters also respect the 'radix and 'precision settings.

6.4  C Formatter Index

(c-if <condition> <pass> [<fail> [<condition2> <pass2> ...]])

Print a chain of if/else conditions. Use a final condition of 'else for a final else clause.

(c-for <init> <condition> <update> <body> ...)

(c-while <condition> <body> ...)

Basic loop constructs.

(c-fun <type> <name> <params> <body> ...)

(c-prototype <type> <name> <params>)

Output a function or function prototype. The parameters should be a list 2-element lists of the form (<param-type> <param-name>), which are output with DSP. A parameter can be abbreviated as just the name, in which case the 'default-type state variable is used. The parameters may be a dotted list, in which case ellipses for a C variadic are inserted - the actual name of the dotted value is ignored.

Types are just symbols, or lists of symbols such as '(const char *).

Also accessed as %fun and %prototype at the head of a list.

(c-begin <expr> ...)

Outputs each of the <expr>s, separated by semi-colons if in a statement or commas if in an expression.

(c-switch <clause> ...)

(c-case <values> <body> ...)

(c-case/fallthrough <values> <body> ...)

(c-default <body> ...)

Switch statements. In addition to using the clause formatters, clauses inside a switch may be handled with a Scheme CASE-like list, with the car a list of case values and the cdr the body.

(c-label <name>)

(c-goto <name>)

(c-return [<result>])

c-break

c-continue

Manual labels and jumps. Labels can also be accessed as a list beginning with a colon, e.g. '(: label1).

(c-const <expr>)

(c-static <expr>)

(c-volatile <expr>)

(c-restrict <expr>)

(c-register <expr>)

(c-auto <expr>)

(c-inline <expr>)

(c-extern <expr>)

Declaration modifiers. May be nested.

(c-extern/C <body> ...)

Wraps body in an extern "C" { ... } for use with C++.

(c-var <type> <name> [<init-value>])

Declares and optionally initializes a variable. Also accessed as %var at the head of a list.

(c-cast <type> <expr>)

Casts an expression to a type. Also %cast at the head of a list.

(c-typedef <type> <new-name> ...)

Creates a new type definition with one or more names.

(c-struct [<name>] <field-list> [<attributes>])

(c-union [<name>] <field-list> [<attributes>])

(c-class [<name>] <field-list> [<attributes>])

(c-attribute <values> ...)

Composite type constructors. Attributes may be accessed as %attribute at the head of a list.

  (fmt #f (c-struct 'employee
                      '((short age)
                        ((char *) name)
                        ((struct (year month day)) dob))
                      (c-attribute 'packed)))

  struct employee {
      short age;
      char* name;
      struct {
          int year;
          int month;
          int day;
      } dob;
  } __attribute__ ((packed));

(c-enum [<name>] <enum-list>)

Enumerated types. <enum-list> may be strings, symbols, or lists of string or symbol followed by the enum's value.

(c-comment <formatter> ...)

Outputs the <formatter>s wrapped in C's /* ... */ comment. Properly escapes nested comments inside in an Emacs-friendly style.

(cpp-include <file>)

If file is a string, outputs in it "quotes", otherwise (as a symbol or arbitrary formatter) it outputs it in brackets.

(fmt #f (cpp-include 'stdio.h))

=> "#include <stdio.h>n"

(fmt #f (cpp-include "config.h"))

=> "#include "config.h"n"

(cpp-define <macro> [<value>])

Defines a preprocessor macro, which may be just a name or a list of name and parameters. Properly wraps the value in parenthesis and escapes newlines. A dotted parameter list will use the C99 variadic macro syntax, and will also substitute any references to the dotted name with __VA_ARGS__:

(fmt #t (cpp-define '(eprintf . args) '(fprintf stderr args)))

  #define eprintf(...) (fprintf(stderr, __VA_ARGS__))

(cpp-if <condition> <pass> [<fail> ...])

(cpp-ifdef <condition> <pass> [<fail> ...])

(cpp-ifndef <condition> <pass> [<fail> ...])

(cpp-elif <condition> <pass> [<fail> ...])

(cpp-else <body> ...)

Conditional compilation.

(cpp-line <num> [<file>])

Line number information.

(cpp-pragma <args> ...)

(cpp-error <args> ...)

(cpp-warning <args> ...)

Additional preprocessor directives.

(cpp-stringify <expr>)

Stringifies <expr> by prefixing the # operator.

(cpp-sym-cat <args> ...)

Joins the <args> into a single preprocessor token with the ## operator.

(cpp-wrap-header <name> <body> ...)

Wrap an entire header to only be included once.

Operators:

c++ c-- c+ c- c* c/ c% c& c^ c~ c! c&& c<< c>> c== c!=
c< c> c<= c>= c= c+= c-= c*= c/= c%= c&= c^= c<<= c>>=
c++/post c--/post c-or c-bit-or c-bit-or=

7  Formatting with Color

The fmt-color library provides the following utilities:

  (fmt-red <formatter> ...)
  (fmt-blue <formatter> ...)
  (fmt-green <formatter> ...)
  (fmt-cyan <formatter> ...)
  (fmt-yellow <formatter> ...)
  (fmt-magenta <formatter> ...)
  (fmt-white <formatter> ...)
  (fmt-black <formatter> ...)
  (fmt-bold <formatter> ...)
  (fmt-underline <formatter> ...)

and more generally

(fmt-color <color> <formatter> ...)

where color can be a symbol name or #xRRGGBB numeric value. Outputs the formatters colored with ANSI escapes. In addition

(fmt-in-html <formatter> ...)

can be used to mark the format state as being inside HTML, which the above color formats will understand and output HTML <span> tags with the appropriate style colors, instead of ANSI escapes.

8  Unicode

The fmt-unicode library provides the fmt-unicode formatter, which just takes a list of formatters and overrides the string-length for padding and trimming, such that Unicode double or full width characters are considered 2 characters wide (as they typically are in fixed-width terminals), while treating combining and non-spacing characters as 0 characters wide.

It also recognizes and ignores ANSI escapes.

9  Optimizing

The library is designed for scalability, not speed, and I'm not going to think about any fine tuning until it's more stabilised. One aspect of the design, however, was influenced for the sake of future optimizations, which is that none of the default format variables are initialized by global parameters, which leaves room for inlining and subsequent simplification of format calls.

10  Common Lisp Format Cheat Sheet

A quick reference for those of you switching over from Common Lisp's format.

format fmt
~a dsp
~c dsp
~s wrt/unshared
~w wrt
~y pretty
~x (radix 16 ...) or (num <n> 16)
~o (radix 8 ...) or (num <n> 8)
~b (radix 2 ...) or (num <n> 2)
~f (fix <digits> ...) or (num <n> <radix> <digits>)
~% nl
~& fl
~[...~] normal if or fmt-if (delayed test)
~{...~} (fmt-join ... <list> [<sep>])

11  References

[1]  R. Kelsey, W. Clinger, J. Rees (eds.) Revised^5 Report on the Algorithmic Language Scheme

[2]  Guy L. Steele Jr. (editor) Common Lisp Hyperspec

[3]  Scott G. Miller SRFI-28 Basic Format Strings

[4]  Ken Dickey SRFI-48 Intermediate Format Strings

[5]  Ray Dillinger SRFI-38 External Representation for Data With Shared Structure

[6]  Damian Conway Perl6 Exegesis 7 - formatting