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webkit / WebKit / 42e436ee6bc216d7629fae788ed2a4a4b27cff54 / . / PerformanceTests / JetStream2 / simple / float-mm.c
blob: 3722c9b44536f8993d4eda7bfb2e524a187d9bf8 [file] [log] [blame]
#include <stdio.h>
#include <stdlib.h>
#define nil 0
#define false 0
#define true 1
#define bubblebase 1.61f
#define dnfbase 3.5f
#define permbase 1.75f
#define queensbase 1.83f
#define towersbase 2.39f
#define quickbase 1.92f
#define intmmbase 1.46f
#define treebase 2.5f
#define mmbase 0.0f
#define fpmmbase 2.92f
#define puzzlebase 0.5f
#define fftbase 0.0f
#define fpfftbase 4.44f
/* Towers */
#define maxcells 18
/* Intmm, Mm */
#define rowsize 40
/* Puzzle */
#define size 511
#define classmax 3
#define typemax 12
#define d 8
/* Bubble, Quick */
#define sortelements 5000
#define srtelements 500
/* fft */
#define fftsize 256
#define fftsize2 129
/*
type */
/* Perm */
#define permrange 10
/* tree */
struct node {
struct node *left,*right;
int val;
};
/* Towers */ /*
discsizrange = 1..maxcells; */
#define stackrange 3
/* cellcursor = 0..maxcells; */
struct element {
int discsize;
int next;
};
/* emsgtype = packed array[1..15] of char;
*/
/* Intmm, Mm */ /*
index = 1 .. rowsize;
intmatrix = array [index,index] of integer;
realmatrix = array [index,index] of real;
*/
/* Puzzle */ /*
piececlass = 0..classmax;
piecetype = 0..typemax;
position = 0..size;
*/
/* Bubble, Quick */ /*
listsize = 0..sortelements;
sortarray = array [listsize] of integer;
*/
/* FFT */
struct complex { float rp, ip; } ;
/*
carray = array [1..fftsize] of complex ;
c2array = array [1..fftsize2] of complex ;
*/
float value, fixed, floated;
/* global */
long seed; /* converted to long for 16 bit WR*/
/* Perm */
int permarray[permrange+1];
/* converted pctr to unsigned int for 16 bit WR*/
unsigned int pctr;
/* tree */
struct node *tree;
/* Towers */
int stack[stackrange+1];
struct element cellspace[maxcells+1];
int freelist, movesdone;
/* Intmm, Mm */
int ima[rowsize+1][rowsize+1], imb[rowsize+1][rowsize+1], imr[rowsize+1][rowsize+1];
float rma[rowsize+1][rowsize+1], rmb[rowsize+1][rowsize+1], rmr[rowsize+1][rowsize+1];
/* Puzzle */
int piececount[classmax+1], class[typemax+1], piecemax[typemax+1];
int puzzl[size+1], p[typemax+1][size+1], n, kount;
/* Bubble, Quick */
int sortlist[sortelements+1], biggest, littlest, top;
/* FFT */
struct complex z[fftsize+1], w[fftsize+1], e[fftsize2+1];
float zr, zi;
void Initrand () {
seed = 74755L; /* constant to long WR*/
}
int Rand () {
seed = (seed * 1309L + 13849L) & 65535L; /* constants to long WR*/
return( (int)seed ); /* typecast back to int WR*/
}
/* Multiplies two real matrices. */
void rInitmatrix ( float m[rowsize+1][rowsize+1] ) {
int temp, i, j;
for ( i = 1; i <= rowsize; i++ )
for ( j = 1; j <= rowsize; j++ ) {
temp = Rand();
m[i][j] = (float)(temp - (temp/120)*120 - 60)/3;
}
}
void rInnerproduct(float *result, float a[rowsize+1][rowsize+1], float b[rowsize+1][rowsize+1], int row, int column) {
/* computes the inner product of A[row,*] and B[*,column] */
int i;
*result = 0.0f;
for (i = 1; i<=rowsize; i++) *result = *result+a[row][i]*b[i][column];
}
void Mm (int run) {
int i, j;
Initrand();
rInitmatrix (rma);
rInitmatrix (rmb);
for ( i = 1; i <= rowsize; i++ )
for ( j = 1; j <= rowsize; j++ )
rInnerproduct(&rmr[i][j],rma,rmb,i,j);
if (run < rowsize)
printf("%f\n", rmr[run + 1][run + 1]);
}
int main()
{
int i;
for (i = 0; i < 5000; i++) Mm(i);
return 0;
}