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40 
41 /*
42 //  Purpose:
43 //     Intel(R) Integrated Performance Primitives. Cryptography Primitives.
44 //     Internal Unsigned arithmetic
45 //
46 //  Contents:
47 //     cpSqrAdc_BNU_school()
48 //
49 */
50 
51 #include "owncp.h"
52 #include "pcpbnuarith.h"
53 #include "pcpbnumisc.h"
54 
55 
56 /*F*
57 //    Name: cpSqrAdc_BNU_school
58 //
59 // Purpose: Square BigNums.
60 //
61 // Returns:
62 //    extension of result of square BigNum
63 //
64 // Parameters:
65 //    pA    source BigNum
66 //    pR    resultant BigNum
67 //    nsA   size of A
68 //
69 *F*/
70 #if defined(_USE_C_cpSqrAdc_BNU_school_)
71 #pragma message ("C version of cpSqrAdc_BNU_school: ON")
72 #else
73 #pragma message ("C version of cpSqrAdc_BNU_school: OFF")
74 #endif
75 
76 #if !((_IPP==_IPP_W7) || \
77       (_IPP==_IPP_T7) || \
78       (_IPP==_IPP_V8) || \
79       (_IPP==_IPP_P8) || \
80       (_IPP>=_IPP_G9) || \
81       (_IPP==_IPP_S8) || \
82       (_IPP32E==_IPP32E_M7) || \
83       (_IPP32E==_IPP32E_U8) || \
84       (_IPP32E==_IPP32E_Y8) || \
85       (_IPP32E>=_IPP32E_E9) || \
86       (_IPP32E==_IPP32E_N8)) || \
87       defined(_USE_C_cpSqrAdc_BNU_school_)
cpSqrAdc_BNU_school(BNU_CHUNK_T * pR,const BNU_CHUNK_T * pA,cpSize nsA)88 BNU_CHUNK_T cpSqrAdc_BNU_school(BNU_CHUNK_T* pR, const BNU_CHUNK_T* pA, cpSize nsA)
89 {
90    cpSize i;
91 
92    BNU_CHUNK_T extension;
93    BNU_CHUNK_T rH, rL;
94 
95    /* init result */
96    pR[0] = 0;
97    for(i=1, extension=0; i<nsA; i++) {
98       MUL_AB(rH, rL, pA[i], pA[0]);
99       ADD_AB(extension, pR[i], rL, extension);
100       extension += rH;
101    }
102    pR[i] = extension;
103 
104    /* add other a[i]*a[j] */
105    for(i=1; i<nsA-1; i++) {
106       BNU_CHUNK_T a = pA[i];
107       cpSize j;
108       for(j=i+1, extension=0; j<nsA; j++) {
109          MUL_AB(rH, rL, pA[j], a);
110          ADD_ABC(extension, pR[i+j], rL, pR[i+j], extension);
111          extension += rH;
112       }
113       pR[i+j] = extension;
114    }
115 
116    /* double a[i]*a[j] */
117    for(i=1, extension=0; i<(2*nsA-1); i++) {
118       ADD_ABC(extension, pR[i], pR[i], pR[i], extension);
119    }
120    pR[i] = extension;
121 
122    /* add a[i]^2 */
123    for(i=0, extension=0; i<nsA; i++) {
124       MUL_AB(rH, rL, pA[i], pA[i]);
125       ADD_ABC(extension, pR[2*i], pR[2*i], rL, extension);
126       ADD_ABC(extension, pR[2*i+1], pR[2*i+1], rH, extension);
127    }
128    return pR[2*nsA-1];
129 }
130 #endif
131