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/* 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/>. */
include "escalarmul.circom";
template Pedersen(n) { signal input in[n]; signal output out[2];
var nexps = ((n-1) \ 250) + 1; var nlastbits = n - (nexps-1)*250;
component escalarMuls[nexps];
var PBASE[10][2] = [ [10457101036533406547632367118273992217979173478358440826365724437999023779287,19824078218392094440610104313265183977899662750282163392862422243483260492317], [2671756056509184035029146175565761955751135805354291559563293617232983272177,2663205510731142763556352975002641716101654201788071096152948830924149045094], [5802099305472655231388284418920769829666717045250560929368476121199858275951,5980429700218124965372158798884772646841287887664001482443826541541529227896], [7107336197374528537877327281242680114152313102022415488494307685842428166594,2857869773864086953506483169737724679646433914307247183624878062391496185654], [20265828622013100949498132415626198973119240347465898028410217039057588424236,1160461593266035632937973507065134938065359936056410650153315956301179689506], [1487999857809287756929114517587739322941449154962237464737694709326309567994,14017256862867289575056460215526364897734808720610101650676790868051368668003], [14618644331049802168996997831720384953259095788558646464435263343433563860015,13115243279999696210147231297848654998887864576952244320558158620692603342236], [6814338563135591367010655964669793483652536871717891893032616415581401894627,13660303521961041205824633772157003587453809761793065294055279768121314853695], [3571615583211663069428808372184817973703476260057504149923239576077102575715,11981351099832644138306422070127357074117642951423551606012551622164230222506], [18597552580465440374022635246985743886550544261632147935254624835147509493269,6753322320275422086923032033899357299485124665258735666995435957890214041481]
];
var i; var j; var nexpbits; for (i=0; i<nexps; i++) { nexpbits = (i == nexps-1) ? nlastbits : 250; escalarMuls[i] = EscalarMul(nexpbits, PBASE[i]);
for (j=0; j<nexpbits; j++) { escalarMuls[i].in[j] <== in[250*i + j]; }
if (i==0) { escalarMuls[i].inp[0] <== 0; escalarMuls[i].inp[1] <== 1; } else { escalarMuls[i].inp[0] <== escalarMuls[i-1].out[0]; escalarMuls[i].inp[1] <== escalarMuls[i-1].out[1]; } }
escalarMuls[nexps-1].out[0] ==> out[0]; escalarMuls[nexps-1].out[1] ==> out[1]; }
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