arnaucube
/
circomlib
mirror of https://github.com/arnaucube/circomlib.git


								/*

								    Copyright 2018 0KIMS association.


								    This file is part of circom (Zero Knowledge Circuit Compiler).


								    circom is a free software: you can redistribute it and/or modify it

								    under the terms of the GNU General Public License as published by

								    the Free Software Foundation, either version 3 of the License, or

								    (at your option) any later version.


								    circom is distributed in the hope that it will be useful, but WITHOUT

								    ANY WARRANTY; without even the implied warranty of MERCHANTABILITY

								    or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public

								    License for more details.


								    You should have received a copy of the GNU General Public License

								    along with circom. If not, see <https://www.gnu.org/licenses/>.

								*/


								/*


								Binary Sum

								==========


								This component creates a binary sum componet of ops operands and n bits each operand.


								e is Number of carries: Depends on the number of operands in the input.


								Main Constraint:

								   in[0][0]     * 2^0  +  in[0][1]     * 2^1  + ..... + in[0][n-1]    * 2^(n-1)  +

								 + in[1][0]     * 2^0  +  in[1][1]     * 2^1  + ..... + in[1][n-1]    * 2^(n-1)  +

								 + ..

								 + in[ops-1][0] * 2^0  +  in[ops-1][1] * 2^1  + ..... + in[ops-1][n-1] * 2^(n-1)  +

								 ===

								   out[0] * 2^0  + out[1] * 2^1 +   + out[n+e-1] *2(n+e-1)


								To waranty binary outputs:


								    out[0]     * (out[0] - 1) === 0

								    out[1]     * (out[0] - 1) === 0

								    .

								    .

								    .

								    out[n+e-1] * (out[n+e-1] - 1) == 0


								 */


								/*

								    This function calculates the number of extra bits in the output to do the full sum.

								 */


								function nbits(a) {

								    var n = 1;

								    var r = 0;

								    while (n-1<a) {

								        r++;

								        n *= 2;

								    }

								    return r;

								}


								template BinSum(n, ops) {

								    var nout = nbits((2**n -1)*ops);

								    signal input in[ops][n];

								    signal output out[nout];


								    var lin = 0;

								    var lout = 0;


								    var k;

								    var j;


								    for (k=0; k<n; k++) {

								        for (j=0; j<ops; j++) {

								            lin += in[j][k] * 2**k;

								        }

								    }


								    for (k=0; k<nout; k++) {

								        out[k] <-- (lin >> k) & 1;


								        // Ensure out is binary

								        out[k] * (out[k] - 1) === 0;


								        lout += out[k] * 2**k;

								    }


								    // Ensure the sum;


								    lin === lout;

								}