| 1 | #include <actor.hfa>
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| 2 | #include <fstream.hfa>
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| 3 | #include <stdlib.hfa>
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| 4 | #include <string.h>
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| 5 | #include <stdio.h>
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| 6 |
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| 7 | ssize_t xr = 500, xc = 500, yc = 500, Processors = 1; // default values, must be signed
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| 8 |
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| 9 | struct derived_actor { inline actor; };
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| 10 |
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| 11 | struct derived_msg {
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| 12 | inline message;
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| 13 | int * Z;
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| 14 | int * X;
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| 15 | int ** Y;
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| 16 | };
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| 17 |
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| 18 | void ?{}( derived_msg & this ) {}
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| 19 | void ?{}( derived_msg & this, int * Z, int * X, int ** Y ) {
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| 20 | set_allocation( this, Nodelete );
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| 21 | this.Z = Z;
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| 22 | this.X = X;
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| 23 | this.Y = Y;
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| 24 | }
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| 25 |
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| 26 | allocation receive( derived_actor & receiver, derived_msg & msg ) {
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| 27 | for ( i; yc ) { // multiply X_row by Y_col and sum products
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| 28 | msg.Z[i] = 0;
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| 29 | for ( j; xc ) {
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| 30 | msg.Z[i] += msg.X[j] * msg.Y[j][i];
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| 31 | } // for
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| 32 | } // for
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| 33 | return Finished;
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| 34 | }
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| 35 |
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| 36 | int main( int argc, char * argv[] ) {
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| 37 | switch ( argc ) {
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| 38 | case 5:
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| 39 | if ( strcmp( argv[4], "d" ) != 0 ) { // default ?
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| 40 | Processors = ato( argv[4] );
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| 41 | if ( Processors < 1 ) fallthru default;
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| 42 | } // if
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| 43 | case 4:
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| 44 | if ( strcmp( argv[3], "d" ) != 0 ) { // default ?
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| 45 | xr = ato( argv[3] );
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| 46 | if ( xr < 1 ) fallthru default;
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| 47 | } // if
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| 48 | case 3:
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| 49 | if ( strcmp( argv[2], "d" ) != 0 ) { // default ?
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| 50 | xc = ato( argv[2] );
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| 51 | if ( xc < 1 ) fallthru default;
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| 52 | } // if
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| 53 | case 2:
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| 54 | if ( strcmp( argv[1], "d" ) != 0 ) { // default ?
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| 55 | yc = ato( argv[1] );
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| 56 | if ( yc < 1 ) fallthru default;
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| 57 | } // if
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| 58 | case 1: // use defaults
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| 59 | break;
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| 60 | default:
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| 61 | exit | "Usage: " | argv[0]
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| 62 | | " [ yc (> 0) | 'd' (default " | yc
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| 63 | | ") ] [ xc (> 0) | 'd' (default " | xc
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| 64 | | ") ] [ xr (> 0) | 'd' (default " | xr
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| 65 | | ") ] [ processors (> 0) | 'd' (default " | Processors
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| 66 | | ") ]" ;
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| 67 | } // switch
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| 68 |
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| 69 | int * Z[xr], * X[xr], * Y[xc];
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| 70 |
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| 71 | for ( r; xr ) { // create/initialize X matrix
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| 72 | X[r] = aalloc( xc );
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| 73 | for ( c; xc ) {
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| 74 | X[r][c] = r * c % 37; // for timing
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| 75 | } // for
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| 76 | } // for
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| 77 | for ( r; xc ) { // create/initialize Y matrix
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| 78 | Y[r] = aalloc( yc );
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| 79 | for ( c; yc ) {
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| 80 | Y[r][c] = r * c % 37; // for timing
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| 81 | } // for
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| 82 | } // for
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| 83 | for ( r; xr ) { // create Z matrix
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| 84 | Z[r] = aalloc( yc );
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| 85 | } // for
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| 86 |
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| 87 | executor e{ Processors, Processors, Processors == 1 ? 1 : Processors * 16, true };
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| 88 |
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| 89 | sout | "starting";
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| 90 | actor_start( e );
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| 91 | sout | "started";
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| 92 | derived_msg messages[xr];
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| 93 | derived_actor actors[xr];
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| 94 |
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| 95 | for ( r; xr ) {
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| 96 | messages[r]{ Z[r], X[r], Y };
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| 97 | } // for
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| 98 | for ( r; xr ) {
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| 99 | actors[r] | messages[r];
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| 100 | } // for
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| 101 |
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| 102 | sout | "stopping";
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| 103 | actor_stop();
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| 104 | sout | "stopped";
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| 105 |
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| 106 | for ( r; xr ) { // deallocate X and Z matrices
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| 107 | free( X[r] );
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| 108 | free( Z[r] );
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| 109 | } // for
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| 110 | for ( r; xc ) { // deallocate Y matrix
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| 111 | free( Y[r] );
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| 112 | } // for
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| 113 | }
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