Index: src/js/math.js |
diff --git a/src/js/math.js b/src/js/math.js |
index fbe783bf7758b36daaa86ae10ad502c5db72cc81..121d188101037fbda683c2e160364ec77a8cfbc8 100644 |
--- a/src/js/math.js |
+++ b/src/js/math.js |
@@ -10,7 +10,6 @@ |
// ------------------------------------------------------------------- |
// Imports |
-define kRandomBatchSize = 64; |
// The first two slots are reserved to persist PRNG state. |
define kRandomNumberStart = 2; |
@@ -19,7 +18,7 @@ |
var GlobalObject = global.Object; |
var InternalArray = utils.InternalArray; |
var NaN = %GetRootNaN(); |
-var nextRandomIndex = kRandomBatchSize; |
+var nextRandomIndex = 0; |
var randomNumbers = UNDEFINED; |
var toStringTagSymbol = utils.ImportNow("to_string_tag_symbol"); |
@@ -67,19 +66,24 @@ |
// ECMA 262 - 15.8.2.14 |
function MathRandom() { |
- if (nextRandomIndex >= kRandomBatchSize) { |
+ // While creating a startup snapshot, %GenerateRandomNumbers returns a |
+ // normal array containing a single random number, and has to be called for |
+ // every new random number. |
+ // Otherwise, it returns a pre-populated typed array of random numbers. The |
+ // first two elements are reserved for the PRNG state. |
+ if (nextRandomIndex <= kRandomNumberStart) { |
randomNumbers = %GenerateRandomNumbers(randomNumbers); |
- nextRandomIndex = kRandomNumberStart; |
- } |
- return randomNumbers[nextRandomIndex++]; |
+ nextRandomIndex = randomNumbers.length; |
+ } |
+ return randomNumbers[--nextRandomIndex]; |
} |
function MathRandomRaw() { |
- if (nextRandomIndex >= kRandomBatchSize) { |
+ if (nextRandomIndex <= kRandomNumberStart) { |
randomNumbers = %GenerateRandomNumbers(randomNumbers); |
- nextRandomIndex = kRandomNumberStart; |
- } |
- return %_DoubleLo(randomNumbers[nextRandomIndex++]) & 0x3FFFFFFF; |
+ nextRandomIndex = randomNumbers.length; |
+ } |
+ return %_DoubleLo(randomNumbers[--nextRandomIndex]) & 0x3FFFFFFF; |
} |
// ECMA 262 - 15.8.2.15 |