xref: /freebsd/contrib/bc/manuals/dc/E.1.md (revision a50d73d5782a351ad83e8d1f84d11720a12e70d3)
1<!---
2
3SPDX-License-Identifier: BSD-2-Clause
4
5Copyright (c) 2018-2023 Gavin D. Howard and contributors.
6
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29-->
30
31# Name
32
33dc - arbitrary-precision decimal reverse-Polish notation calculator
34
35# SYNOPSIS
36
37**dc** [**-cChiPRvVx**] [**-\-version**] [**-\-help**] [**-\-digit-clamp**] [**-\-no-digit-clamp**] [**-\-interactive**] [**-\-no-prompt**] [**-\-no-read-prompt**] [**-\-extended-register**] [**-e** *expr*] [**-\-expression**=*expr*...] [**-f** *file*...] [**-\-file**=*file*...] [*file*...]
38
39# DESCRIPTION
40
41dc(1) is an arbitrary-precision calculator. It uses a stack (reverse Polish
42notation) to store numbers and results of computations. Arithmetic operations
43pop arguments off of the stack and push the results.
44
45If no files are given on the command-line, then dc(1) reads from **stdin** (see
46the **STDIN** section). Otherwise, those files are processed, and dc(1) will
47then exit.
48
49If a user wants to set up a standard environment, they can use **DC_ENV_ARGS**
50(see the **ENVIRONMENT VARIABLES** section). For example, if a user wants the
51**scale** always set to **10**, they can set **DC_ENV_ARGS** to **-e 10k**, and
52this dc(1) will always start with a **scale** of **10**.
53
54# OPTIONS
55
56The following are the options that dc(1) accepts.
57
58**-C**, **-\-no-digit-clamp**
59
60:   Disables clamping of digits greater than or equal to the current **ibase**
61    when parsing numbers.
62
63    This means that the value added to a number from a digit is always that
64    digit's value multiplied by the value of ibase raised to the power of the
65    digit's position, which starts from 0 at the least significant digit.
66
67    If this and/or the **-c** or **-\-digit-clamp** options are given multiple
68    times, the last one given is used.
69
70    This option overrides the **DC_DIGIT_CLAMP** environment variable (see the
71    **ENVIRONMENT VARIABLES** section) and the default, which can be queried
72    with the **-h** or **-\-help** options.
73
74    This is a **non-portable extension**.
75
76**-c**, **-\-digit-clamp**
77
78:   Enables clamping of digits greater than or equal to the current **ibase**
79    when parsing numbers.
80
81    This means that digits that the value added to a number from a digit that is
82    greater than or equal to the ibase is the value of ibase minus 1 all
83    multiplied by the value of ibase raised to the power of the digit's
84    position, which starts from 0 at the least significant digit.
85
86    If this and/or the **-C** or **-\-no-digit-clamp** options are given
87    multiple times, the last one given is used.
88
89    This option overrides the **DC_DIGIT_CLAMP** environment variable (see the
90    **ENVIRONMENT VARIABLES** section) and the default, which can be queried
91    with the **-h** or **-\-help** options.
92
93    This is a **non-portable extension**.
94
95**-e** *expr*, **-\-expression**=*expr*
96
97:   Evaluates *expr*. If multiple expressions are given, they are evaluated in
98    order. If files are given as well (see below), the expressions and files are
99    evaluated in the order given. This means that if a file is given before an
100    expression, the file is read in and evaluated first.
101
102    If this option is given on the command-line (i.e., not in **DC_ENV_ARGS**,
103    see the **ENVIRONMENT VARIABLES** section), then after processing all
104    expressions and files, dc(1) will exit, unless **-** (**stdin**) was given
105    as an argument at least once to **-f** or **-\-file**, whether on the
106    command-line or in **DC_ENV_ARGS**. However, if any other **-e**,
107    **-\-expression**, **-f**, or **-\-file** arguments are given after **-f-**
108    or equivalent is given, dc(1) will give a fatal error and exit.
109
110    This is a **non-portable extension**.
111
112**-f** *file*, **-\-file**=*file*
113
114:   Reads in *file* and evaluates it, line by line, as though it were read
115    through **stdin**. If expressions are also given (see above), the
116    expressions are evaluated in the order given.
117
118    If this option is given on the command-line (i.e., not in **DC_ENV_ARGS**,
119    see the **ENVIRONMENT VARIABLES** section), then after processing all
120    expressions and files, dc(1) will exit, unless **-** (**stdin**) was given
121    as an argument at least once to **-f** or **-\-file**. However, if any other
122    **-e**, **-\-expression**, **-f**, or **-\-file** arguments are given after
123    **-f-** or equivalent is given, dc(1) will give a fatal error and exit.
124
125    This is a **non-portable extension**.
126
127**-h**, **-\-help**
128
129:   Prints a usage message and exits.
130
131**-I** *ibase*, **-\-ibase**=*ibase*
132
133:   Sets the builtin variable **ibase** to the value *ibase* assuming that
134    *ibase* is in base 10. It is a fatal error if *ibase* is not a valid number.
135
136    If multiple instances of this option are given, the last is used.
137
138    This is a **non-portable extension**.
139
140**-i**, **-\-interactive**
141
142:   Forces interactive mode. (See the **INTERACTIVE MODE** section.)
143
144    This is a **non-portable extension**.
145
146**-L**, **-\-no-line-length**
147
148:   Disables line length checking and prints numbers without backslashes and
149    newlines. In other words, this option sets **BC_LINE_LENGTH** to **0** (see
150    the **ENVIRONMENT VARIABLES** section).
151
152    This is a **non-portable extension**.
153
154**-O** *obase*, **-\-obase**=*obase*
155
156:   Sets the builtin variable **obase** to the value *obase* assuming that
157    *obase* is in base 10. It is a fatal error if *obase* is not a valid number.
158
159    If multiple instances of this option are given, the last is used.
160
161    This is a **non-portable extension**.
162
163**-P**, **-\-no-prompt**
164
165:   Disables the prompt in TTY mode. (The prompt is only enabled in TTY mode.
166    See the **TTY MODE** section.) This is mostly for those users that do not
167    want a prompt or are not used to having them in dc(1). Most of those users
168    would want to put this option in **DC_ENV_ARGS**.
169
170    These options override the **DC_PROMPT** and **DC_TTY_MODE** environment
171    variables (see the **ENVIRONMENT VARIABLES** section).
172
173    This is a **non-portable extension**.
174
175**-R**, **-\-no-read-prompt**
176
177:   Disables the read prompt in TTY mode. (The read prompt is only enabled in
178    TTY mode. See the **TTY MODE** section.) This is mostly for those users that
179    do not want a read prompt or are not used to having them in dc(1). Most of
180    those users would want to put this option in **BC_ENV_ARGS** (see the
181    **ENVIRONMENT VARIABLES** section). This option is also useful in hash bang
182    lines of dc(1) scripts that prompt for user input.
183
184    This option does not disable the regular prompt because the read prompt is
185    only used when the **?** command is used.
186
187    These options *do* override the **DC_PROMPT** and **DC_TTY_MODE**
188    environment variables (see the **ENVIRONMENT VARIABLES** section), but only
189    for the read prompt.
190
191    This is a **non-portable extension**.
192
193**-S** *scale*, **-\-scale**=*scale*
194
195:   Sets the builtin variable **scale** to the value *scale* assuming that
196    *scale* is in base 10. It is a fatal error if *scale* is not a valid number.
197
198    If multiple instances of this option are given, the last is used.
199
200    This is a **non-portable extension**.
201
202**-v**, **-V**, **-\-version**
203
204:   Print the version information (copyright header) and exits.
205
206**-x** **-\-extended-register**
207
208:   Enables extended register mode. See the *Extended Register Mode* subsection
209    of the **REGISTERS** section for more information.
210
211    This is a **non-portable extension**.
212
213**-z**, **-\-leading-zeroes**
214
215:   Makes dc(1) print all numbers greater than **-1** and less than **1**, and
216    not equal to **0**, with a leading zero.
217
218    This is a **non-portable extension**.
219
220All long options are **non-portable extensions**.
221
222# STDIN
223
224If no files are given on the command-line and no files or expressions are given
225by the **-f**, **-\-file**, **-e**, or **-\-expression** options, then dc(1)
226reads from **stdin**.
227
228However, there is a caveat to this.
229
230First, **stdin** is evaluated a line at a time. The only exception to this is if
231a string has been finished, but not ended. This means that, except for escaped
232brackets, all brackets must be balanced before dc(1) parses and executes.
233
234# STDOUT
235
236Any non-error output is written to **stdout**. In addition, if history (see the
237**HISTORY** section) and the prompt (see the **TTY MODE** section) are enabled,
238both are output to **stdout**.
239
240**Note**: Unlike other dc(1) implementations, this dc(1) will issue a fatal
241error (see the **EXIT STATUS** section) if it cannot write to **stdout**, so if
242**stdout** is closed, as in **dc <file> >&-**, it will quit with an error. This
243is done so that dc(1) can report problems when **stdout** is redirected to a
244file.
245
246If there are scripts that depend on the behavior of other dc(1) implementations,
247it is recommended that those scripts be changed to redirect **stdout** to
248**/dev/null**.
249
250# STDERR
251
252Any error output is written to **stderr**.
253
254**Note**: Unlike other dc(1) implementations, this dc(1) will issue a fatal
255error (see the **EXIT STATUS** section) if it cannot write to **stderr**, so if
256**stderr** is closed, as in **dc <file> 2>&-**, it will quit with an error. This
257is done so that dc(1) can exit with an error code when **stderr** is redirected
258to a file.
259
260If there are scripts that depend on the behavior of other dc(1) implementations,
261it is recommended that those scripts be changed to redirect **stderr** to
262**/dev/null**.
263
264# SYNTAX
265
266Each item in the input source code, either a number (see the **NUMBERS**
267section) or a command (see the **COMMANDS** section), is processed and executed,
268in order. Input is processed immediately when entered.
269
270**ibase** is a register (see the **REGISTERS** section) that determines how to
271interpret constant numbers. It is the "input" base, or the number base used for
272interpreting input numbers. **ibase** is initially **10**. The max allowable
273value for **ibase** is **16**. The min allowable value for **ibase** is **2**.
274The max allowable value for **ibase** can be queried in dc(1) programs with the
275**T** command.
276
277**obase** is a register (see the **REGISTERS** section) that determines how to
278output results. It is the "output" base, or the number base used for outputting
279numbers. **obase** is initially **10**. The max allowable value for **obase** is
280**DC_BASE_MAX** and can be queried with the **U** command. The min allowable
281value for **obase** is **2**. Values are output in the specified base.
282
283The *scale* of an expression is the number of digits in the result of the
284expression right of the decimal point, and **scale** is a register (see the
285**REGISTERS** section) that sets the precision of any operations (with
286exceptions). **scale** is initially **0**. **scale** cannot be negative. The max
287allowable value for **scale** can be queried in dc(1) programs with the **V**
288command.
289
290## Comments
291
292Comments go from **#** until, and not including, the next newline. This is a
293**non-portable extension**.
294
295# NUMBERS
296
297Numbers are strings made up of digits, uppercase letters up to **F**, and at
298most **1** period for a radix. Numbers can have up to **DC_NUM_MAX** digits.
299Uppercase letters are equal to **9** plus their position in the alphabet (i.e.,
300**A** equals **10**, or **9+1**).
301
302If a digit or letter makes no sense with the current value of **ibase** (i.e.,
303they are greater than or equal to the current value of **ibase**), then the
304behavior depends on the existence of the **-c**/**-\-digit-clamp** or
305**-C**/**-\-no-digit-clamp** options (see the **OPTIONS** section), the
306existence and setting of the **DC_DIGIT_CLAMP** environment variable (see the
307**ENVIRONMENT VARIABLES** section), or the default, which can be queried with
308the **-h**/**-\-help** option.
309
310If clamping is off, then digits or letters that are greater than or equal to the
311current value of **ibase** are not changed. Instead, their given value is
312multiplied by the appropriate power of **ibase** and added into the number. This
313means that, with an **ibase** of **3**, the number **AB** is equal to
314**3\^1\*A+3\^0\*B**, which is **3** times **10** plus **11**, or **41**.
315
316If clamping is on, then digits or letters that are greater than or equal to the
317current value of **ibase** are set to the value of the highest valid digit in
318**ibase** before being multiplied by the appropriate power of **ibase** and
319added into the number. This means that, with an **ibase** of **3**, the number
320**AB** is equal to **3\^1\*2+3\^0\*2**, which is **3** times **2** plus **2**,
321or **8**.
322
323There is one exception to clamping: single-character numbers (i.e., **A**
324alone). Such numbers are never clamped and always take the value they would have
325in the highest possible **ibase**. This means that **A** alone always equals
326decimal **10** and **Z** alone always equals decimal **35**. This behavior is
327mandated by the standard for bc(1) (see the STANDARDS section) and is meant to
328provide an easy way to set the current **ibase** (with the **i** command)
329regardless of the current value of **ibase**.
330
331If clamping is on, and the clamped value of a character is needed, use a leading
332zero, i.e., for **A**, use **0A**.
333
334# COMMANDS
335
336The valid commands are listed below.
337
338## Printing
339
340These commands are used for printing.
341
342**p**
343
344:   Prints the value on top of the stack, whether number or string, and prints a
345    newline after.
346
347    This does not alter the stack.
348
349**n**
350
351:   Prints the value on top of the stack, whether number or string, and pops it
352    off of the stack.
353
354**P**
355
356:   Pops a value off the stack.
357
358    If the value is a number, it is truncated and the absolute value of the
359    result is printed as though **obase** is **256** and each digit is
360    interpreted as an 8-bit ASCII character, making it a byte stream.
361
362    If the value is a string, it is printed without a trailing newline.
363
364    This is a **non-portable extension**.
365
366**f**
367
368:   Prints the entire contents of the stack, in order from newest to oldest,
369    without altering anything.
370
371    Users should use this command when they get lost.
372
373## Arithmetic
374
375These are the commands used for arithmetic.
376
377**+**
378
379:   The top two values are popped off the stack, added, and the result is pushed
380    onto the stack. The *scale* of the result is equal to the max *scale* of
381    both operands.
382
383**-**
384
385:   The top two values are popped off the stack, subtracted, and the result is
386    pushed onto the stack. The *scale* of the result is equal to the max
387    *scale* of both operands.
388
389**\***
390
391:   The top two values are popped off the stack, multiplied, and the result is
392    pushed onto the stack. If **a** is the *scale* of the first expression and
393    **b** is the *scale* of the second expression, the *scale* of the result
394    is equal to **min(a+b,max(scale,a,b))** where **min()** and **max()** return
395    the obvious values.
396
397**/**
398
399:   The top two values are popped off the stack, divided, and the result is
400    pushed onto the stack. The *scale* of the result is equal to **scale**.
401
402    The first value popped off of the stack must be non-zero.
403
404**%**
405
406:   The top two values are popped off the stack, remaindered, and the result is
407    pushed onto the stack.
408
409    Remaindering is equivalent to 1) Computing **a/b** to current **scale**, and
410    2) Using the result of step 1 to calculate **a-(a/b)\*b** to *scale*
411    **max(scale+scale(b),scale(a))**.
412
413    The first value popped off of the stack must be non-zero.
414
415**~**
416
417:   The top two values are popped off the stack, divided and remaindered, and
418    the results (divided first, remainder second) are pushed onto the stack.
419    This is equivalent to **x y / x y %** except that **x** and **y** are only
420    evaluated once.
421
422    The first value popped off of the stack must be non-zero.
423
424    This is a **non-portable extension**.
425
426**\^**
427
428:   The top two values are popped off the stack, the second is raised to the
429    power of the first, and the result is pushed onto the stack. The *scale* of
430    the result is equal to **scale**.
431
432    The first value popped off of the stack must be an integer, and if that
433    value is negative, the second value popped off of the stack must be
434    non-zero.
435
436**v**
437
438:   The top value is popped off the stack, its square root is computed, and the
439    result is pushed onto the stack. The *scale* of the result is equal to
440    **scale**.
441
442    The value popped off of the stack must be non-negative.
443
444**\_**
445
446:   If this command *immediately* precedes a number (i.e., no spaces or other
447    commands), then that number is input as a negative number.
448
449    Otherwise, the top value on the stack is popped and copied, and the copy is
450    negated and pushed onto the stack. This behavior without a number is a
451    **non-portable extension**.
452
453**b**
454
455:   The top value is popped off the stack, and if it is zero, it is pushed back
456    onto the stack. Otherwise, its absolute value is pushed onto the stack.
457
458    This is a **non-portable extension**.
459
460**|**
461
462:   The top three values are popped off the stack, a modular exponentiation is
463    computed, and the result is pushed onto the stack.
464
465    The first value popped is used as the reduction modulus and must be an
466    integer and non-zero. The second value popped is used as the exponent and
467    must be an integer and non-negative. The third value popped is the base and
468    must be an integer.
469
470    This is a **non-portable extension**.
471
472**G**
473
474:   The top two values are popped off of the stack, they are compared, and a
475    **1** is pushed if they are equal, or **0** otherwise.
476
477    This is a **non-portable extension**.
478
479**N**
480
481:   The top value is popped off of the stack, and if it a **0**, a **1** is
482    pushed; otherwise, a **0** is pushed.
483
484    This is a **non-portable extension**.
485
486**(**
487
488:   The top two values are popped off of the stack, they are compared, and a
489    **1** is pushed if the first is less than the second, or **0** otherwise.
490
491    This is a **non-portable extension**.
492
493**{**
494
495:   The top two values are popped off of the stack, they are compared, and a
496    **1** is pushed if the first is less than or equal to the second, or **0**
497    otherwise.
498
499    This is a **non-portable extension**.
500
501**)**
502
503:   The top two values are popped off of the stack, they are compared, and a
504    **1** is pushed if the first is greater than the second, or **0** otherwise.
505
506    This is a **non-portable extension**.
507
508**}**
509
510:   The top two values are popped off of the stack, they are compared, and a
511    **1** is pushed if the first is greater than or equal to the second, or
512    **0** otherwise.
513
514    This is a **non-portable extension**.
515
516**M**
517
518:   The top two values are popped off of the stack. If they are both non-zero, a
519    **1** is pushed onto the stack. If either of them is zero, or both of them
520    are, then a **0** is pushed onto the stack.
521
522    This is like the **&&** operator in bc(1), and it is *not* a short-circuit
523    operator.
524
525    This is a **non-portable extension**.
526
527**m**
528
529:   The top two values are popped off of the stack. If at least one of them is
530    non-zero, a **1** is pushed onto the stack. If both of them are zero, then a
531    **0** is pushed onto the stack.
532
533    This is like the **||** operator in bc(1), and it is *not* a short-circuit
534    operator.
535
536    This is a **non-portable extension**.
537
538## Stack Control
539
540These commands control the stack.
541
542**c**
543
544:   Removes all items from ("clears") the stack.
545
546**d**
547
548:   Copies the item on top of the stack ("duplicates") and pushes the copy onto
549    the stack.
550
551**r**
552
553:   Swaps ("reverses") the two top items on the stack.
554
555**R**
556
557:   Pops ("removes") the top value from the stack.
558
559## Register Control
560
561These commands control registers (see the **REGISTERS** section).
562
563**s**_r_
564
565:   Pops the value off the top of the stack and stores it into register *r*.
566
567**l**_r_
568
569:   Copies the value in register *r* and pushes it onto the stack. This does not
570    alter the contents of *r*.
571
572**S**_r_
573
574:   Pops the value off the top of the (main) stack and pushes it onto the stack
575    of register *r*. The previous value of the register becomes inaccessible.
576
577**L**_r_
578
579:   Pops the value off the top of the stack for register *r* and push it onto
580    the main stack. The previous value in the stack for register *r*, if any, is
581    now accessible via the **l**_r_ command.
582
583## Parameters
584
585These commands control the values of **ibase**, **obase**, and **scale**. Also
586see the **SYNTAX** section.
587
588**i**
589
590:   Pops the value off of the top of the stack and uses it to set **ibase**,
591    which must be between **2** and **16**, inclusive.
592
593    If the value on top of the stack has any *scale*, the *scale* is ignored.
594
595**o**
596
597:   Pops the value off of the top of the stack and uses it to set **obase**,
598    which must be between **2** and **DC_BASE_MAX**, inclusive (see the
599    **LIMITS** section).
600
601    If the value on top of the stack has any *scale*, the *scale* is ignored.
602
603**k**
604
605:   Pops the value off of the top of the stack and uses it to set **scale**,
606    which must be non-negative.
607
608    If the value on top of the stack has any *scale*, the *scale* is ignored.
609
610**I**
611
612:   Pushes the current value of **ibase** onto the main stack.
613
614**O**
615
616:   Pushes the current value of **obase** onto the main stack.
617
618**K**
619
620:   Pushes the current value of **scale** onto the main stack.
621
622**T**
623
624:   Pushes the maximum allowable value of **ibase** onto the main stack.
625
626    This is a **non-portable extension**.
627
628**U**
629
630:   Pushes the maximum allowable value of **obase** onto the main stack.
631
632    This is a **non-portable extension**.
633
634**V**
635
636:   Pushes the maximum allowable value of **scale** onto the main stack.
637
638    This is a **non-portable extension**.
639
640## Strings
641
642The following commands control strings.
643
644dc(1) can work with both numbers and strings, and registers (see the
645**REGISTERS** section) can hold both strings and numbers. dc(1) always knows
646whether the contents of a register are a string or a number.
647
648While arithmetic operations have to have numbers, and will print an error if
649given a string, other commands accept strings.
650
651Strings can also be executed as macros. For example, if the string **[1pR]** is
652executed as a macro, then the code **1pR** is executed, meaning that the **1**
653will be printed with a newline after and then popped from the stack.
654
655**\[**_characters_**\]**
656
657:   Makes a string containing *characters* and pushes it onto the stack.
658
659    If there are brackets (**\[** and **\]**) in the string, then they must be
660    balanced. Unbalanced brackets can be escaped using a backslash (**\\**)
661    character.
662
663    If there is a backslash character in the string, the character after it
664    (even another backslash) is put into the string verbatim, but the (first)
665    backslash is not.
666
667**a**
668
669:   The value on top of the stack is popped.
670
671    If it is a number, it is truncated and its absolute value is taken. The
672    result mod **256** is calculated. If that result is **0**, push an empty
673    string; otherwise, push a one-character string where the character is the
674    result of the mod interpreted as an ASCII character.
675
676    If it is a string, then a new string is made. If the original string is
677    empty, the new string is empty. If it is not, then the first character of
678    the original string is used to create the new string as a one-character
679    string. The new string is then pushed onto the stack.
680
681    This is a **non-portable extension**.
682
683**x**
684
685:   Pops a value off of the top of the stack.
686
687    If it is a number, it is pushed back onto the stack.
688
689    If it is a string, it is executed as a macro.
690
691    This behavior is the norm whenever a macro is executed, whether by this
692    command or by the conditional execution commands below.
693
694**\>**_r_
695
696:   Pops two values off of the stack that must be numbers and compares them. If
697    the first value is greater than the second, then the contents of register
698    *r* are executed.
699
700    For example, **0 1>a** will execute the contents of register **a**, and
701    **1 0>a** will not.
702
703    If either or both of the values are not numbers, dc(1) will raise an error
704    and reset (see the **RESET** section).
705
706**>**_r_**e**_s_
707
708:   Like the above, but will execute register *s* if the comparison fails.
709
710    If either or both of the values are not numbers, dc(1) will raise an error
711    and reset (see the **RESET** section).
712
713    This is a **non-portable extension**.
714
715**!\>**_r_
716
717:   Pops two values off of the stack that must be numbers and compares them. If
718    the first value is not greater than the second (less than or equal to), then
719    the contents of register *r* are executed.
720
721    If either or both of the values are not numbers, dc(1) will raise an error
722    and reset (see the **RESET** section).
723
724**!\>**_r_**e**_s_
725
726:   Like the above, but will execute register *s* if the comparison fails.
727
728    If either or both of the values are not numbers, dc(1) will raise an error
729    and reset (see the **RESET** section).
730
731    This is a **non-portable extension**.
732
733**\<**_r_
734
735:   Pops two values off of the stack that must be numbers and compares them. If
736    the first value is less than the second, then the contents of register *r*
737    are executed.
738
739    If either or both of the values are not numbers, dc(1) will raise an error
740    and reset (see the **RESET** section).
741
742**\<**_r_**e**_s_
743
744:   Like the above, but will execute register *s* if the comparison fails.
745
746    If either or both of the values are not numbers, dc(1) will raise an error
747    and reset (see the **RESET** section).
748
749    This is a **non-portable extension**.
750
751**!\<**_r_
752
753:   Pops two values off of the stack that must be numbers and compares them. If
754    the first value is not less than the second (greater than or equal to), then
755    the contents of register *r* are executed.
756
757    If either or both of the values are not numbers, dc(1) will raise an error
758    and reset (see the **RESET** section).
759
760**!\<**_r_**e**_s_
761
762:   Like the above, but will execute register *s* if the comparison fails.
763
764    If either or both of the values are not numbers, dc(1) will raise an error
765    and reset (see the **RESET** section).
766
767    This is a **non-portable extension**.
768
769**=**_r_
770
771:   Pops two values off of the stack that must be numbers and compares them. If
772    the first value is equal to the second, then the contents of register *r*
773    are executed.
774
775    If either or both of the values are not numbers, dc(1) will raise an error
776    and reset (see the **RESET** section).
777
778**=**_r_**e**_s_
779
780:   Like the above, but will execute register *s* if the comparison fails.
781
782    If either or both of the values are not numbers, dc(1) will raise an error
783    and reset (see the **RESET** section).
784
785    This is a **non-portable extension**.
786
787**!=**_r_
788
789:   Pops two values off of the stack that must be numbers and compares them. If
790    the first value is not equal to the second, then the contents of register
791    *r* are executed.
792
793    If either or both of the values are not numbers, dc(1) will raise an error
794    and reset (see the **RESET** section).
795
796**!=**_r_**e**_s_
797
798:   Like the above, but will execute register *s* if the comparison fails.
799
800    If either or both of the values are not numbers, dc(1) will raise an error
801    and reset (see the **RESET** section).
802
803    This is a **non-portable extension**.
804
805**?**
806
807:   Reads a line from the **stdin** and executes it. This is to allow macros to
808    request input from users.
809
810**q**
811
812:   During execution of a macro, this exits the execution of that macro and the
813    execution of the macro that executed it. If there are no macros, or only one
814    macro executing, dc(1) exits.
815
816**Q**
817
818:   Pops a value from the stack which must be non-negative and is used the
819    number of macro executions to pop off of the execution stack. If the number
820    of levels to pop is greater than the number of executing macros, dc(1)
821    exits.
822
823**,**
824
825:   Pushes the depth of the execution stack onto the stack. The execution stack
826    is the stack of string executions. The number that is pushed onto the stack
827    is exactly as many as is needed to make dc(1) exit with the **Q** command,
828    so the sequence **,Q** will make dc(1) exit.
829
830    This is a **non-portable extension**.
831
832## Status
833
834These commands query status of the stack or its top value.
835
836**Z**
837
838:   Pops a value off of the stack.
839
840    If it is a number, calculates the number of significant decimal digits it
841    has and pushes the result. It will push **1** if the argument is **0** with
842    no decimal places.
843
844    If it is a string, pushes the number of characters the string has.
845
846**X**
847
848:   Pops a value off of the stack.
849
850    If it is a number, pushes the *scale* of the value onto the stack.
851
852    If it is a string, pushes **0**.
853
854**u**
855
856:   Pops one value off of the stack. If the value is a number, this pushes **1**
857    onto the stack. Otherwise (if it is a string), it pushes **0**.
858
859    This is a **non-portable extension**.
860
861**t**
862
863:   Pops one value off of the stack. If the value is a string, this pushes **1**
864    onto the stack. Otherwise (if it is a number), it pushes **0**.
865
866    This is a **non-portable extension**.
867
868**z**
869
870:   Pushes the current depth of the stack (before execution of this command)
871    onto the stack.
872
873**y**_r_
874
875:   Pushes the current stack depth of the register *r* onto the main stack.
876
877    Because each register has a depth of **1** (with the value **0** in the top
878    item) when dc(1) starts, dc(1) requires that each register's stack must
879    always have at least one item; dc(1) will give an error and reset otherwise
880    (see the **RESET** section). This means that this command will never push
881    **0**.
882
883    This is a **non-portable extension**.
884
885## Arrays
886
887These commands manipulate arrays.
888
889**:**_r_
890
891:   Pops the top two values off of the stack. The second value will be stored in
892    the array *r* (see the **REGISTERS** section), indexed by the first value.
893
894**;**_r_
895
896:   Pops the value on top of the stack and uses it as an index into the array
897    *r*. The selected value is then pushed onto the stack.
898
899**Y**_r_
900
901:   Pushes the length of the array *r* onto the stack.
902
903    This is a **non-portable extension**.
904
905## Global Settings
906
907These commands retrieve global settings. These are the only commands that
908require multiple specific characters, and all of them begin with the letter
909**g**. Only the characters below are allowed after the character **g**; any
910other character produces a parse error (see the **ERRORS** section).
911
912**gl**
913
914:   Pushes the line length set by **DC_LINE_LENGTH** (see the **ENVIRONMENT
915    VARIABLES** section) onto the stack.
916
917**gx**
918
919:   Pushes **1** onto the stack if extended register mode is on, **0**
920    otherwise. See the *Extended Register Mode* subsection of the **REGISTERS**
921    section for more information.
922
923**gz**
924
925:   Pushes **0** onto the stack if the leading zero setting has not been enabled
926    with the **-z** or **-\-leading-zeroes** options (see the **OPTIONS**
927    section), non-zero otherwise.
928
929# REGISTERS
930
931Registers are names that can store strings, numbers, and arrays. (Number/string
932registers do not interfere with array registers.)
933
934Each register is also its own stack, so the current register value is the top of
935the stack for the register. All registers, when first referenced, have one value
936(**0**) in their stack, and it is a runtime error to attempt to pop that item
937off of the register stack.
938
939In non-extended register mode, a register name is just the single character that
940follows any command that needs a register name. The only exceptions are: a
941newline (**'\\n'**) and a left bracket (**'['**); it is a parse error for a
942newline or a left bracket to be used as a register name.
943
944## Extended Register Mode
945
946Unlike most other dc(1) implentations, this dc(1) provides nearly unlimited
947amounts of registers, if extended register mode is enabled.
948
949If extended register mode is enabled (**-x** or **-\-extended-register**
950command-line arguments are given), then normal single character registers are
951used *unless* the character immediately following a command that needs a
952register name is a space (according to **isspace()**) and not a newline
953(**'\\n'**).
954
955In that case, the register name is found according to the regex
956**\[a-z\]\[a-z0-9\_\]\*** (like bc(1) identifiers), and it is a parse error if
957the next non-space characters do not match that regex.
958
959# RESET
960
961When dc(1) encounters an error or a signal that it has a non-default handler
962for, it resets. This means that several things happen.
963
964First, any macros that are executing are stopped and popped off the stack.
965The behavior is not unlike that of exceptions in programming languages. Then
966the execution point is set so that any code waiting to execute (after all
967macros returned) is skipped.
968
969Thus, when dc(1) resets, it skips any remaining code waiting to be executed.
970Then, if it is interactive mode, and the error was not a fatal error (see the
971**EXIT STATUS** section), it asks for more input; otherwise, it exits with the
972appropriate return code.
973
974# PERFORMANCE
975
976Most dc(1) implementations use **char** types to calculate the value of **1**
977decimal digit at a time, but that can be slow. This dc(1) does something
978different.
979
980It uses large integers to calculate more than **1** decimal digit at a time. If
981built in a environment where **DC_LONG_BIT** (see the **LIMITS** section) is
982**64**, then each integer has **9** decimal digits. If built in an environment
983where **DC_LONG_BIT** is **32** then each integer has **4** decimal digits. This
984value (the number of decimal digits per large integer) is called
985**DC_BASE_DIGS**.
986
987In addition, this dc(1) uses an even larger integer for overflow checking. This
988integer type depends on the value of **DC_LONG_BIT**, but is always at least
989twice as large as the integer type used to store digits.
990
991# LIMITS
992
993The following are the limits on dc(1):
994
995**DC_LONG_BIT**
996
997:   The number of bits in the **long** type in the environment where dc(1) was
998    built. This determines how many decimal digits can be stored in a single
999    large integer (see the **PERFORMANCE** section).
1000
1001**DC_BASE_DIGS**
1002
1003:   The number of decimal digits per large integer (see the **PERFORMANCE**
1004    section). Depends on **DC_LONG_BIT**.
1005
1006**DC_BASE_POW**
1007
1008:   The max decimal number that each large integer can store (see
1009    **DC_BASE_DIGS**) plus **1**. Depends on **DC_BASE_DIGS**.
1010
1011**DC_OVERFLOW_MAX**
1012
1013:   The max number that the overflow type (see the **PERFORMANCE** section) can
1014    hold. Depends on **DC_LONG_BIT**.
1015
1016**DC_BASE_MAX**
1017
1018:   The maximum output base. Set at **DC_BASE_POW**.
1019
1020**DC_DIM_MAX**
1021
1022:   The maximum size of arrays. Set at **SIZE_MAX-1**.
1023
1024**DC_SCALE_MAX**
1025
1026:   The maximum **scale**. Set at **DC_OVERFLOW_MAX-1**.
1027
1028**DC_STRING_MAX**
1029
1030:   The maximum length of strings. Set at **DC_OVERFLOW_MAX-1**.
1031
1032**DC_NAME_MAX**
1033
1034:   The maximum length of identifiers. Set at **DC_OVERFLOW_MAX-1**.
1035
1036**DC_NUM_MAX**
1037
1038:   The maximum length of a number (in decimal digits), which includes digits
1039    after the decimal point. Set at **DC_OVERFLOW_MAX-1**.
1040
1041Exponent
1042
1043:   The maximum allowable exponent (positive or negative). Set at
1044    **DC_OVERFLOW_MAX**.
1045
1046Number of vars
1047
1048:   The maximum number of vars/arrays. Set at **SIZE_MAX-1**.
1049
1050These limits are meant to be effectively non-existent; the limits are so large
1051(at least on 64-bit machines) that there should not be any point at which they
1052become a problem. In fact, memory should be exhausted before these limits should
1053be hit.
1054
1055# ENVIRONMENT VARIABLES
1056
1057As **non-portable extensions**, dc(1) recognizes the following environment
1058variables:
1059
1060**DC_ENV_ARGS**
1061
1062:   This is another way to give command-line arguments to dc(1). They should be
1063    in the same format as all other command-line arguments. These are always
1064    processed first, so any files given in **DC_ENV_ARGS** will be processed
1065    before arguments and files given on the command-line. This gives the user
1066    the ability to set up "standard" options and files to be used at every
1067    invocation. The most useful thing for such files to contain would be useful
1068    functions that the user might want every time dc(1) runs. Another use would
1069    be to use the **-e** option to set **scale** to a value other than **0**.
1070
1071    The code that parses **DC_ENV_ARGS** will correctly handle quoted arguments,
1072    but it does not understand escape sequences. For example, the string
1073    **"/home/gavin/some dc file.dc"** will be correctly parsed, but the string
1074    **"/home/gavin/some \"dc\" file.dc"** will include the backslashes.
1075
1076    The quote parsing will handle either kind of quotes, **'** or **"**. Thus,
1077    if you have a file with any number of single quotes in the name, you can use
1078    double quotes as the outside quotes, as in **"some 'dc' file.dc"**, and vice
1079    versa if you have a file with double quotes. However, handling a file with
1080    both kinds of quotes in **DC_ENV_ARGS** is not supported due to the
1081    complexity of the parsing, though such files are still supported on the
1082    command-line where the parsing is done by the shell.
1083
1084**DC_LINE_LENGTH**
1085
1086:   If this environment variable exists and contains an integer that is greater
1087    than **1** and is less than **UINT16_MAX** (**2\^16-1**), dc(1) will output
1088    lines to that length, including the backslash newline combo. The default
1089    line length is **70**.
1090
1091    The special value of **0** will disable line length checking and print
1092    numbers without regard to line length and without backslashes and newlines.
1093
1094**DC_SIGINT_RESET**
1095
1096:   If dc(1) is not in interactive mode (see the **INTERACTIVE MODE** section),
1097    then this environment variable has no effect because dc(1) exits on
1098    **SIGINT** when not in interactive mode.
1099
1100    However, when dc(1) is in interactive mode, then if this environment
1101    variable exists and contains an integer, a non-zero value makes dc(1) reset
1102    on **SIGINT**, rather than exit, and zero makes dc(1) exit. If this
1103    environment variable exists and is *not* an integer, then dc(1) will exit on
1104    **SIGINT**.
1105
1106    This environment variable overrides the default, which can be queried with
1107    the **-h** or **-\-help** options.
1108
1109**DC_TTY_MODE**
1110
1111:   If TTY mode is *not* available (see the **TTY MODE** section), then this
1112    environment variable has no effect.
1113
1114    However, when TTY mode is available, then if this environment variable
1115    exists and contains an integer, then a non-zero value makes dc(1) use TTY
1116    mode, and zero makes dc(1) not use TTY mode.
1117
1118    This environment variable overrides the default, which can be queried with
1119    the **-h** or **-\-help** options.
1120
1121**DC_PROMPT**
1122
1123:   If TTY mode is *not* available (see the **TTY MODE** section), then this
1124    environment variable has no effect.
1125
1126    However, when TTY mode is available, then if this environment variable
1127    exists and contains an integer, a non-zero value makes dc(1) use a prompt,
1128    and zero or a non-integer makes dc(1) not use a prompt. If this environment
1129    variable does not exist and **DC_TTY_MODE** does, then the value of the
1130    **DC_TTY_MODE** environment variable is used.
1131
1132    This environment variable and the **DC_TTY_MODE** environment variable
1133    override the default, which can be queried with the **-h** or **-\-help**
1134    options.
1135
1136**DC_EXPR_EXIT**
1137
1138:   If any expressions or expression files are given on the command-line with
1139    **-e**, **-\-expression**, **-f**, or **-\-file**, then if this environment
1140    variable exists and contains an integer, a non-zero value makes dc(1) exit
1141    after executing the expressions and expression files, and a zero value makes
1142    dc(1) not exit.
1143
1144    This environment variable overrides the default, which can be queried with
1145    the **-h** or **-\-help** options.
1146
1147**DC_DIGIT_CLAMP**
1148
1149:   When parsing numbers and if this environment variable exists and contains an
1150    integer, a non-zero value makes dc(1) clamp digits that are greater than or
1151    equal to the current **ibase** so that all such digits are considered equal
1152    to the **ibase** minus 1, and a zero value disables such clamping so that
1153    those digits are always equal to their value, which is multiplied by the
1154    power of the **ibase**.
1155
1156    This never applies to single-digit numbers, as per the bc(1) standard (see
1157    the **STANDARDS** section).
1158
1159    This environment variable overrides the default, which can be queried with
1160    the **-h** or **-\-help** options.
1161
1162# EXIT STATUS
1163
1164dc(1) returns the following exit statuses:
1165
1166**0**
1167
1168:   No error.
1169
1170**1**
1171
1172:   A math error occurred. This follows standard practice of using **1** for
1173    expected errors, since math errors will happen in the process of normal
1174    execution.
1175
1176    Math errors include divide by **0**, taking the square root of a negative
1177    number, attempting to convert a negative number to a hardware integer,
1178    overflow when converting a number to a hardware integer, overflow when
1179    calculating the size of a number, and attempting to use a non-integer where
1180    an integer is required.
1181
1182    Converting to a hardware integer happens for the second operand of the power
1183    (**\^**) operator.
1184
1185**2**
1186
1187:   A parse error occurred.
1188
1189    Parse errors include unexpected **EOF**, using an invalid character, failing
1190    to find the end of a string or comment, and using a token where it is
1191    invalid.
1192
1193**3**
1194
1195:   A runtime error occurred.
1196
1197    Runtime errors include assigning an invalid number to any global (**ibase**,
1198    **obase**, or **scale**), giving a bad expression to a **read()** call,
1199    calling **read()** inside of a **read()** call, type errors (including
1200    attempting to execute a number), and attempting an operation when the stack
1201    has too few elements.
1202
1203**4**
1204
1205:   A fatal error occurred.
1206
1207    Fatal errors include memory allocation errors, I/O errors, failing to open
1208    files, attempting to use files that do not have only ASCII characters (dc(1)
1209    only accepts ASCII characters), attempting to open a directory as a file,
1210    and giving invalid command-line options.
1211
1212The exit status **4** is special; when a fatal error occurs, dc(1) always exits
1213and returns **4**, no matter what mode dc(1) is in.
1214
1215The other statuses will only be returned when dc(1) is not in interactive mode
1216(see the **INTERACTIVE MODE** section), since dc(1) resets its state (see the
1217**RESET** section) and accepts more input when one of those errors occurs in
1218interactive mode. This is also the case when interactive mode is forced by the
1219**-i** flag or **-\-interactive** option.
1220
1221These exit statuses allow dc(1) to be used in shell scripting with error
1222checking, and its normal behavior can be forced by using the **-i** flag or
1223**-\-interactive** option.
1224
1225# INTERACTIVE MODE
1226
1227Like bc(1), dc(1) has an interactive mode and a non-interactive mode.
1228Interactive mode is turned on automatically when both **stdin** and **stdout**
1229are hooked to a terminal, but the **-i** flag and **-\-interactive** option can
1230turn it on in other situations.
1231
1232In interactive mode, dc(1) attempts to recover from errors (see the **RESET**
1233section), and in normal execution, flushes **stdout** as soon as execution is
1234done for the current input. dc(1) may also reset on **SIGINT** instead of exit,
1235depending on the contents of, or default for, the **DC_SIGINT_RESET**
1236environment variable (see the **ENVIRONMENT VARIABLES** section).
1237
1238# TTY MODE
1239
1240If **stdin**, **stdout**, and **stderr** are all connected to a TTY, then "TTY
1241mode" is considered to be available, and thus, dc(1) can turn on TTY mode,
1242subject to some settings.
1243
1244If there is the environment variable **DC_TTY_MODE** in the environment (see the
1245**ENVIRONMENT VARIABLES** section), then if that environment variable contains a
1246non-zero integer, dc(1) will turn on TTY mode when **stdin**, **stdout**, and
1247**stderr** are all connected to a TTY. If the **DC_TTY_MODE** environment
1248variable exists but is *not* a non-zero integer, then dc(1) will not turn TTY
1249mode on.
1250
1251If the environment variable **DC_TTY_MODE** does *not* exist, the default
1252setting is used. The default setting can be queried with the **-h** or
1253**-\-help** options.
1254
1255TTY mode is different from interactive mode because interactive mode is required
1256in the bc(1) specification (see the **STANDARDS** section), and interactive mode
1257requires only **stdin** and **stdout** to be connected to a terminal.
1258
1259## Command-Line History
1260
1261Command-line history is only enabled if TTY mode is, i.e., that **stdin**,
1262**stdout**, and **stderr** are connected to a TTY and the **DC_TTY_MODE**
1263environment variable (see the **ENVIRONMENT VARIABLES** section) and its default
1264do not disable TTY mode. See the **COMMAND LINE HISTORY** section for more
1265information.
1266
1267## Prompt
1268
1269If TTY mode is available, then a prompt can be enabled. Like TTY mode itself, it
1270can be turned on or off with an environment variable: **DC_PROMPT** (see the
1271**ENVIRONMENT VARIABLES** section).
1272
1273If the environment variable **DC_PROMPT** exists and is a non-zero integer, then
1274the prompt is turned on when **stdin**, **stdout**, and **stderr** are connected
1275to a TTY and the **-P** and **-\-no-prompt** options were not used. The read
1276prompt will be turned on under the same conditions, except that the **-R** and
1277**-\-no-read-prompt** options must also not be used.
1278
1279However, if **DC_PROMPT** does not exist, the prompt can be enabled or disabled
1280with the **DC_TTY_MODE** environment variable, the **-P** and **-\-no-prompt**
1281options, and the **-R** and **-\-no-read-prompt** options. See the **ENVIRONMENT
1282VARIABLES** and **OPTIONS** sections for more details.
1283
1284# SIGNAL HANDLING
1285
1286Sending a **SIGINT** will cause dc(1) to do one of two things.
1287
1288If dc(1) is not in interactive mode (see the **INTERACTIVE MODE** section), or
1289the **DC_SIGINT_RESET** environment variable (see the **ENVIRONMENT VARIABLES**
1290section), or its default, is either not an integer or it is zero, dc(1) will
1291exit.
1292
1293However, if dc(1) is in interactive mode, and the **DC_SIGINT_RESET** or its
1294default is an integer and non-zero, then dc(1) will stop executing the current
1295input and reset (see the **RESET** section) upon receiving a **SIGINT**.
1296
1297Note that "current input" can mean one of two things. If dc(1) is processing
1298input from **stdin** in interactive mode, it will ask for more input. If dc(1)
1299is processing input from a file in interactive mode, it will stop processing the
1300file and start processing the next file, if one exists, or ask for input from
1301**stdin** if no other file exists.
1302
1303This means that if a **SIGINT** is sent to dc(1) as it is executing a file, it
1304can seem as though dc(1) did not respond to the signal since it will immediately
1305start executing the next file. This is by design; most files that users execute
1306when interacting with dc(1) have function definitions, which are quick to parse.
1307If a file takes a long time to execute, there may be a bug in that file. The
1308rest of the files could still be executed without problem, allowing the user to
1309continue.
1310
1311**SIGTERM** and **SIGQUIT** cause dc(1) to clean up and exit, and it uses the
1312default handler for all other signals. The one exception is **SIGHUP**; in that
1313case, and only when dc(1) is in TTY mode (see the **TTY MODE** section), a
1314**SIGHUP** will cause dc(1) to clean up and exit.
1315
1316# COMMAND LINE HISTORY
1317
1318dc(1) supports interactive command-line editing.
1319
1320If dc(1) can be in TTY mode (see the **TTY MODE** section), history can be
1321enabled. This means that command-line history can only be enabled when
1322**stdin**, **stdout**, and **stderr** are all connected to a TTY.
1323
1324Like TTY mode itself, it can be turned on or off with the environment variable
1325**DC_TTY_MODE** (see the **ENVIRONMENT VARIABLES** section).
1326
1327**Note**: tabs are converted to 8 spaces.
1328
1329# LOCALES
1330
1331This dc(1) ships with support for adding error messages for different locales
1332and thus, supports **LC_MESSAGES**.
1333
1334# SEE ALSO
1335
1336bc(1)
1337
1338# STANDARDS
1339
1340The dc(1) utility operators and some behavior are compliant with the operators
1341in the IEEE Std 1003.1-2017 (“POSIX.1-2017”) bc(1) specification at
1342https://pubs.opengroup.org/onlinepubs/9699919799/utilities/bc.html .
1343
1344# BUGS
1345
1346None are known. Report bugs at https://git.gavinhoward.com/gavin/bc .
1347
1348# AUTHOR
1349
1350Gavin D. Howard <gavin@gavinhoward.com> and contributors.
1351