TurboPFor: Java Critical Natives
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@ -1,5 +1,5 @@
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/**
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Copyright (C) powturbo 2013-2015
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Copyright (C) powturbo 2013-2017
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GPL v2 License
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This program is free software; you can redistribute it and/or modify
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@ -38,7 +38,32 @@ public class jic {
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public native static int vsenc32( int[] in, int n, byte[] out);
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public native static int vsdec32( byte[] in, int n, int[] out);
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// TurboPFor: PFor/PForDelta
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//************ TurboPFor: PFor/PForDelta
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// High level API: n unlimited
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public native static int p4nenc32( int[] in, int n, byte[] out);
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public native static int p4ndec32( byte[] in, int n, int[] out);
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public native static int p4nenc128v32( int[] in, int n, byte[] out);
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public native static int p4ndec128v32( byte[] in, int n, int[] out);
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public native static int p4nenc256v32( int[] in, int n, byte[] out);
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public native static int p4ndec256v32( byte[] in, int n, int[] out);
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public native static int p4ndenc32( int[] in, int n, byte[] out);
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public native static int p4nddec32( byte[] in, int n, int[] out);
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public native static int p4ndenc128v32( int[] in, int n, byte[] out);
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public native static int p4nddec128v32( byte[] in, int n, int[] out);
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public native static int p4nd1enc128v32( int[] in, int n, byte[] out);
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public native static int p4nd1dec128v32( byte[] in, int n, int[] out);
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public native static int p4ndenc256v32( int[] in, int n, byte[] out);
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public native static int p4nddec256v32( byte[] in, int n, int[] out);
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public native static int p4nd1enc256v32( int[] in, int n, byte[] out);
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public native static int p4nd1dec256v32( byte[] in, int n, int[] out);
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// Single block: n limited to 128/256
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public native static int p4enc32( int[] in, int n, byte[] out);
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public native static int p4dec32( byte[] in, int n, int[] out);
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@ -56,24 +81,19 @@ public class jic {
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public native static int p4d1dec128v32( byte[] in, int n, int[] out, int start);
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public native static int p4d1dec256v32( byte[] in, int n, int[] out, int start);
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// n unlimited
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public native static int p4nenc32( int[] in, int n, byte[] out);
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public native static int p4ndec32( byte[] in, int n, int[] out);
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public native static int p4nenc128v32( int[] in, int n, byte[] out);
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public native static int p4ndec128v32( byte[] in, int n, int[] out);
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public native static int p4nenc256v32( int[] in, int n, byte[] out);
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public native static int p4ndec256v32( byte[] in, int n, int[] out);
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//********** bitpack scalar
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// High level API
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public native static int bitnpack32( int[] in, int n, byte[] out);
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public native static int bitnunpack32( byte[] in, int n, int[] out);
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public native static int p4nddec32( byte[] in, int n, int[] out, int start);
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public native static int p4nddec128v32( byte[] in, int n, int[] out, int start);
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public native static int p4nddec256v32( byte[] in, int n, int[] out, int start);
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public native static int p4nd1dec32( byte[] in, int n, int[] out, int start);
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public native static int p4nd1dec128v32( byte[] in, int n, int[] out, int start);
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public native static int p4nd1dec256v32( byte[] in, int n, int[] out, int start);
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public native static int bitndpack32( int[] in, int n, byte[] out);
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public native static int bitndunpack32( byte[] in, int n, int[] out);
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// bitpack scalar
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public native static int bitnd1pack32( int[] in, int n, byte[] out);
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public native static int bitnd1unpack32( byte[] in, int n, int[] out);
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// Low level
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public native static int bitpack32( int[] in, int n, byte[] out, int b);
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public native static int bitunpack32( byte[] in, int n, int[] out, int b);
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@ -83,7 +103,28 @@ public class jic {
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public native static int bitd1pack32( int[] in, int n, byte[] out, int start, int b);
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public native static int bitd1unpack32( byte[] in, int n, int[] out, int start, int b);
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// bit packing SIMD: single block limited to 128/256 integers
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//********* bit packing SIMD: single block limited to 128/256 integers
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// High level API
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public native static int bitnpack128v32( int[] in, int n, byte[] out);
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public native static int bitnunpack128v32( byte[] in, int n, int[] out);
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public native static int bitndpack128v32( int[] in, int n, byte[] out);
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public native static int bitndunpack128v32( byte[] in, int n, int[] out);
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public native static int bitnd1pack128v32( int[] in, int n, byte[] out);
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public native static int bitnd1unpack128v32(byte[] in, int n, int[] out);
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// AVX2
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public native static int bitnpack256v32( int[] in, int n, byte[] out);
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public native static int bitnunpack256v32( byte[] in, int n, int[] out);
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public native static int bitndpack256v32( int[] in, int n, byte[] out);
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public native static int bitndunpack256v32( byte[] in, int n, int[] out);
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public native static int bitnd1pack256v32( int[] in, int n, byte[] out);
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public native static int bitnd1unpack256v32(byte[] in, int n, int[] out);
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// Low level API
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public native static int bitpack128v32( int[] in, int n, byte[] out, int b);
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public native static int bitunpack128v32( byte[] in, int n, int[] out, int b);
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@ -93,6 +134,16 @@ public class jic {
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public native static int bitd1pack128v32( int[] in, int n, byte[] out, int start, int b);
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public native static int bitd1unpack128v32(byte[] in, int n, int[] out, int start, int b);
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// AVX2
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public native static int bitpack256v32( int[] in, int n, byte[] out, int b);
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public native static int bitunpack256v32( byte[] in, int n, int[] out, int b);
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public native static int bitdpack256v32( int[] in, int n, byte[] out, int start, int b);
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public native static int bitdunpack256v32( byte[] in, int n, int[] out, int start, int b);
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public native static int bitd1pack256v32( int[] in, int n, byte[] out, int start, int b);
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public native static int bitd1unpack256v32(byte[] in, int n, int[] out, int start, int b);
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// bitutil
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public native static int bit32( int[] in, int n);
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public native static int bitd32( int[] in, int n, int start);
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