#include #include #include #include #include "nabcode.h" #define MAT_ALLOC(n) ( ( MATRIX_T * )malloc( ( n )*sizeof( MATRIX_T ) ) ) #define BPN 14 char *MAT_getsyminfo(); static int pid = -1; static char mname[ 256 ] = ""; /* *****************************************/ /* Module Description */ /* *****************************************/ int mg_ico_desc() { int in_port, out_port, param, iresult; extern int mg_ico_compute(); AVSset_module_name( "mg_ico", MODULE_DATA ); /* Input Port Specifications */ in_port = AVScreate_input_port( "InMatrices", "field 1D 1-space 1-vector uniform byte", OPTIONAL ); /* Output Port Specifications */ out_port = AVScreate_output_port( "OutMatrices", "field 1D 1-space 1-vector uniform byte" ); out_port = AVScreate_output_port( "o_noID", "integer" ); AVSset_output_flags( out_port, INVISIBLE ); out_port = AVScreate_output_port( "o_Center", "string" ); AVSset_output_flags( out_port, INVISIBLE ); out_port = AVScreate_output_port( "o_Axis1", "string" ); AVSset_output_flags( out_port, INVISIBLE ); out_port = AVScreate_output_port( "o_Axis2", "string" ); AVSset_output_flags( out_port, INVISIBLE ); /* Parameter Specifications */ param = AVSadd_parameter( "noID", "boolean", 0, 0, 1 ); param = AVSadd_parameter( "Axestype", "choice", "relative axes", "relative axes:absolute axes", ":" ); AVSconnect_widget( param, "radio_buttons" ); param = AVSadd_parameter( "Center", "string", "0 0 0", "", ":" ); AVSadd_parameter_prop( param, "width", "integer", 4 ); AVSconnect_widget( param, "typein" ); param = AVSadd_parameter( "Axis1", "string", "1 0 0", "", ":" ); AVSadd_parameter_prop( param, "width", "integer", 4 ); AVSconnect_widget( param, "typein" ); param = AVSadd_parameter( "Axis2", "string", "0 1 0", "", ":" ); AVSadd_parameter_prop( param, "width", "integer", 4 ); AVSconnect_widget( param, "typein" ); param = AVSadd_parameter( "Name", "string", "", "", "" ); AVSadd_parameter_prop( param, "width", "integer", 4 ); AVSconnect_widget( param, "typein" ); AVSset_compute_proc( mg_ico_compute ); return( 1 ); } /* *****************************************/ /* Module Compute Routine */ /* *****************************************/ int mg_ico_compute( InMatrices, OutMatrices, o_noID, o_Center, o_Axis1, o_Axis2, noID, Axestype, Center, Axis1, Axis2, Name ) AVSfield_char *InMatrices; AVSfield_char **OutMatrices; int *o_noID; char **o_Center; char **o_Axis1; char **o_Axis2; int noID; char *Axestype; char *Center; char *Axis1; char *Axis2; char *Name; { int noid, create; int i, j; POINT_T pts[ 4 ]; int m, ms, mi, mo; int nmats, simats, nimats, nomats; MATRIX_T *mats, *imats, *omats; int dims0[ 1 ]; char *sip; char m_si[ 1000 ]; int s_sip, s_o_sip; char *dp; if( pid == -1 ) pid = getpid(); if( !*Name ){ if( !*mname ) sprintf( mname, "m%d", pid ); }else strcpy( mname, Name ); AVSmodify_parameter( "Name", AVS_VALUE, mname, "", "" ); if( *OutMatrices ) AVSfield_free(*OutMatrices); if( *o_Center ) free( *o_Center ); if( *o_Axis1 ) free( *o_Axis1 ); if( *o_Axis2 ) free( *o_Axis2 ); noid = noID; create = 1; nmats = nimats = nomats = 0; mats = imats = omats = NULL; for( i = 0; i < 4; i++ ) for( j = 0; j < 3; j++ ) pts[ i ][ j ] = 0.0; if( *Center == '\0' ) return( 0 ); if(sscanf(Center, "%lf %lf %lf",&pts[0][0],&pts[0][1],&pts[0][2]) != 3){ AVSerror( "Center must be specified." ); return( 0 ); } if( *Axis1 == '\0' ) return( 0 ); if(sscanf(Axis1, "%lf %lf %lf",&pts[1][0],&pts[1][1],&pts[1][2]) != 3){ AVSerror( "Axis1 must be specified." ); return( 0 ); } if( Axis2 == '\0' ) return( 0 ); if(sscanf(Axis2, "%lf %lf %lf",&pts[2][0],&pts[2][1],&pts[2][2]) != 3){ AVSerror( "Axis2 must be specified." ); return( 0 ); } nmats = 60; mats = MAT_ALLOC( nmats ); if( mats == NULL ){ AVSerror( "Allocation of mats failed." ); return( 0 ); } if( !strcmp( Axestype, "relative axes" ) ){ NAB_ptadd( pts[1], pts[0], pts[1] ); NAB_ptadd( pts[2], pts[0], pts[2] ); } MAT_ico( pts, mats ); if( !InMatrices ){ nimats = 0; sip = NULL; s_sip = 0; }else{ simats = MAT_count( InMatrices->data ); imats = MAT_ALLOC( simats ); if( imats == NULL ){ AVSerror( "Allocation of mats failed." ); free( mats ); return( 0 ); } if( ( nimats = MAT_sscan(InMatrices->data,simats,imats))==0 ){ AVSerror( "InMatrices is not a valid matrix field." ); free( imats ); free( mats ); return( 0 ); } sip = MAT_getsyminfo( InMatrices->data ); s_sip = strlen( sip ); create = 0; } dp = m_si; sprintf( dp, "#S{ ico %d %s\n", pid, mname ); dp += strlen( dp ); sprintf( dp, "#S+ noid %s\n", noid ? "true" : "false" ); dp += strlen( dp ); sprintf( dp, "#S+ axestype %s\n", !strcmp(Axestype, "relative axes") ? "relative" : "absolute" ); dp += strlen( dp ); sprintf( dp, "#S+ center %e %e %e\n", pts[0][0], pts[0][1], pts[0][2] ); dp += strlen( dp ); sprintf( dp, "#S+ axis1 %e %e %e\n", pts[1][0], pts[1][1], pts[1][2] ); dp += strlen( dp ); sprintf( dp, "#S+ axis2 %e %e %e\n", pts[2][0], pts[2][1], pts[2][2] ); s_o_sip = strlen( m_si ) + strlen( "#S}\n" ) + s_sip; if( create || nimats == 0 ){ if( noid ){ ms = 1; nomats = nmats - 1; }else{ ms = 0; nomats = nmats; } omats = ( MATRIX_T * )mats[ ms ]; }else{ if( noid ){ ms = 1; nomats = nimats * ( nmats - 1 ); }else{ ms = 0; nomats = nimats * nmats; } omats = MAT_ALLOC( nomats ); if( omats == NULL ){ AVSerror( "Allocation of omats failed." ); free( imats ); free( mats ); return( 0 ); } mo = 0; for( m = ms; m < nmats; m++ ){ for( mi = 0; mi < nimats; mi++, mo++ ){ NAB_matcpy( omats[ mo ], MAT_concat( imats[ mi ], mats[ m ] ) ); } } } *o_noID = noID; *o_Center = ( char * )malloc( strlen( Center ) + 1 ); strcpy( *o_Center, Center ); *o_Axis1 = ( char * )malloc( strlen( Axis1 ) + 1 ); strcpy( *o_Axis1, Axis1 ); *o_Axis2 = ( char * )malloc( strlen( Axis2 ) + 1 ); strcpy( *o_Axis2, Axis2 ); dims0[0] = 16 * BPN * nomats + s_o_sip; *OutMatrices = (AVSfield_char *) AVSdata_alloc( "field 1D 1-space 1-vector uniform byte", dims0); if (*OutMatrices == NULL) { AVSerror( "Allocation of output field failed." ); if( !create && nimats != 0 ) free( omats ); if( imats ) free( imats ); free( mats ); return( 0 ); } dp = ( *OutMatrices )->data; strcpy( dp, m_si ); dp += strlen( m_si ); if( sip != NULL ){ strcpy( dp, sip ); dp += s_sip; } strcpy( dp, "#S}\n" ); dp += strlen( "#S}\n" ); MAT_sprint( dp, nomats, omats ); if( !create && nimats != 0 ) free( omats ); if( imats ) free( imats ); free( mats ); return(1); } /* ***********************************************************************/ /* Initialization for modules contained in this file. */ /* ***********************************************************************/ static int ((*mod_list[])()) = { mg_ico_desc }; #define NMODS (sizeof(mod_list) / sizeof(char *)) AVSinit_modules() { AVSinit_from_module_list(mod_list, NMODS); }