Proper Money Handling (JSON-RPC): Difference between revisions
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The original bitcoin client stores all bitcoin values as 64-bit integers, with 1 BTC stored as 100,000,000 (one-hundred-million of the smallest possible bitcoin unit). Values are expressed as double-precision Numbers in the JSON API, with 1 BTC expressed as 1.00000000 | The original bitcoin client stores all bitcoin values as 64-bit integers, with 1 BTC stored as 100,000,000 (one-hundred-million of the smallest possible bitcoin unit). Values are expressed as double-precision Numbers in the JSON API, with 1 BTC expressed as 1.00000000 | ||
If you are writing software that uses the JSON-RPC interface you need to be aware of possible floating-point conversion issues. You, or the JSON library you are using, should convert amounts to either a fixed-point Decimal representation (with 8 digits after the decimal point) or a 64-bit integer representation. | If you are writing software that uses the JSON-RPC interface you need to be aware of possible floating-point conversion issues. You, or the JSON library you are using, should convert amounts to either a fixed-point Decimal representation (with 8 digits after the decimal point) or ideally a 64-bit integer representation. In either case, rounding values is required. | ||
Improper value handling can lead to embarrassing errors; for example, if you truncate instead of doing proper rounding and your software will display the value "0.1 BTC" as "0.09999999 BTC" (or, worse, "0.09 BTC"). | Improper value handling can lead to embarrassing errors; for example, if you truncate instead of doing proper rounding and your software will display the value "0.1 BTC" as "0.09999999 BTC" (or, worse, "0.09 BTC"). | ||
The original bitcoin client does proper, full-precision rounding for all values passed to it via the RPC interface. So, for example, if the value 0.1 is converted to the value "0.099999999999" by your JSON-RPC library, that value will be rounded to the nearest 0.00000001 bitcoin and will be treated as exactly 0. | The original bitcoin client does proper, full-precision rounding for all values passed to it via the RPC interface. So, for example, if the value 0.1 is converted to the value "0.099999999999" by your JSON-RPC library, that value will be rounded to the nearest 0.00000001 bitcoin and will be treated as exactly 0.10 BTC. | ||
The rest of this page gives sample code for various JSON libraries and programming languages. | The rest of this page gives sample code for various JSON libraries and programming languages. | ||
== | == BASH == | ||
<source lang="bash"> | |||
function JSONtoAmount( | function JSONtoAmount() { | ||
printf '%.8f' "$1" | tr -d '.' | |||
} | } | ||
</source> | |||
== C/C++ == | == C/C++ == | ||
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To convert to a JSON value divide by 100,000,000.0, and make sure your JSON implementation outputs doubles with 8 or more digits after the decimal point: | To convert to a JSON value divide by 100,000,000.0, and make sure your JSON implementation outputs doubles with 8 or more digits after the decimal point: | ||
double forJSON = (double)amount / 1e8; | double forJSON = (double)amount / 1e8; | ||
== ECMAScript == | |||
function JSONtoAmount(value) { | |||
return Math.round(1e8 * value); | |||
} | |||
== Java == | |||
public long JSONtoAmount(double value){ | |||
return (long)(value*100000000L); | |||
} | |||
== Perl == | == Perl == | ||
sub JSONtoAmount { | sub JSONtoAmount { | ||
return sprintf '%.0f', 1e8 * shift; | return sprintf '%.0f', 1e8 * shift; | ||
} | |||
== Go == | |||
The [https://github.com/btcsuite/btcd/btcjson btcjson package] provides a more complete version of this function (error checking and so on), but for illustrative purposes, this is useful. | |||
func JSONToAmount(jsonAmount float64) (int64) { | |||
var amount int64 | |||
tempVal := 1e8 * jsonAmount | |||
if tempVal < 0 { | |||
tempVal = tempVal - 0.5 | |||
} | |||
if tempVal > 0 { | |||
tempVal = tempVal + 0.5 | |||
} | |||
// Then just rely on the integer truncating | |||
amount = int64(tempVal) | |||
return amount | |||
} | |||
== PHP == | |||
function JSONtoAmount($value) { | |||
return round($value * 1e8); | |||
} | } | ||
== Python == | == Python == | ||
def JSONtoAmount(value): | |||
return long(round(value * 1e8)) | |||
def AmountToJSON(amount): | |||
return float(amount / 1e8) | |||
== Common Lisp == | |||
(defun json-to-amount (n) | |||
(coerce (round (* n 1e8)) 'integer)) | |||
'''CAUTION''': The CL-JSON library parses numbers as ''single'' precision floating-point by | |||
default. The default parsing behavior can be overridden as follows: | |||
(set-custom-vars :real (lambda (n) | |||
(json::parse-number (concatenate 'string n "d0")))) | |||
[[Category:Technical]] | [[Category:Technical]] | ||
[[Category:Developer]] | [[Category:Developer]] | ||
[[de:Korrektes_Handling_von_Geldbeträgen_(JSON-RPC)]] |
Latest revision as of 12:08, 30 April 2015
Overview
The original bitcoin client stores all bitcoin values as 64-bit integers, with 1 BTC stored as 100,000,000 (one-hundred-million of the smallest possible bitcoin unit). Values are expressed as double-precision Numbers in the JSON API, with 1 BTC expressed as 1.00000000
If you are writing software that uses the JSON-RPC interface you need to be aware of possible floating-point conversion issues. You, or the JSON library you are using, should convert amounts to either a fixed-point Decimal representation (with 8 digits after the decimal point) or ideally a 64-bit integer representation. In either case, rounding values is required.
Improper value handling can lead to embarrassing errors; for example, if you truncate instead of doing proper rounding and your software will display the value "0.1 BTC" as "0.09999999 BTC" (or, worse, "0.09 BTC").
The original bitcoin client does proper, full-precision rounding for all values passed to it via the RPC interface. So, for example, if the value 0.1 is converted to the value "0.099999999999" by your JSON-RPC library, that value will be rounded to the nearest 0.00000001 bitcoin and will be treated as exactly 0.10 BTC.
The rest of this page gives sample code for various JSON libraries and programming languages.
BASH
function JSONtoAmount() {
printf '%.8f' "$1" | tr -d '.'
}
C/C++
C/C++ JSON libraries return the JavaScript Number type as type 'double'. To convert, without loss of precision, from a double to a 64-bit integer multiply by 100,000,000 and round to the nearest integer:
int64_t JSONtoAmount(double value) { return (int64_t)(value * 1e8 + (value < 0.0 ? -.5 : .5)); }
To convert to a JSON value divide by 100,000,000.0, and make sure your JSON implementation outputs doubles with 8 or more digits after the decimal point:
double forJSON = (double)amount / 1e8;
ECMAScript
function JSONtoAmount(value) { return Math.round(1e8 * value); }
Java
public long JSONtoAmount(double value){ return (long)(value*100000000L); }
Perl
sub JSONtoAmount { return sprintf '%.0f', 1e8 * shift; }
Go
The btcjson package provides a more complete version of this function (error checking and so on), but for illustrative purposes, this is useful.
func JSONToAmount(jsonAmount float64) (int64) { var amount int64 tempVal := 1e8 * jsonAmount if tempVal < 0 { tempVal = tempVal - 0.5 } if tempVal > 0 { tempVal = tempVal + 0.5 } // Then just rely on the integer truncating amount = int64(tempVal) return amount }
PHP
function JSONtoAmount($value) { return round($value * 1e8); }
Python
def JSONtoAmount(value): return long(round(value * 1e8)) def AmountToJSON(amount): return float(amount / 1e8)
Common Lisp
(defun json-to-amount (n) (coerce (round (* n 1e8)) 'integer))
CAUTION: The CL-JSON library parses numbers as single precision floating-point by default. The default parsing behavior can be overridden as follows:
(set-custom-vars :real (lambda (n) (json::parse-number (concatenate 'string n "d0"))))