+ case GEOM::GEOM_IKindOfShape::CRV_BSPLINE:
+ {
+ aKindStr = tr( "GEOM_CRV_BSPLINE" );
+ theParameters = TITLE( "GEOM_PARAMETERS" ) +
+ "<br>" + tr( "GEOM_PERIODICITY" ) + tr( anInts[0] ? "GEOM_PERIODIC" : "GEOM_NON_PERIODIC") +
+ "<br>" + tr( "GEOM_DEGREE" ) + PRINT_INTEGER( anInts[1] ) +
+ "<br>" + tr( "GEOM_NUM_POLES" ) + PRINT_INTEGER( anInts[2] ) +
+ "<br>" + tr( "GEOM_NUM_WEIGHTS" ) + PRINT_INTEGER( anInts[4] ) +
+ "<br>" + tr( "GEOM_NUM_KNOTS" ) + PRINT_INTEGER( anInts[3] ) +
+ "<br>" + tr( "GEOM_NUM_MULTIS" ) + PRINT_INTEGER( anInts[5] ) +
+ "<br>" + TITLE( "GEOM_POLES" );
+ // Show max. 5 poles
+ Standard_Integer i, nb = std::min(5, anInts[2]);
+ if (anInts[4] == anInts[2]) {
+ // Each pole has a specific weight associated
+ Standard_Integer widx = anInts[2] * 3 + anInts[3]; // skip poles and knots
+ for (i=0; i<nb; i++) {
+ theParameters +=
+ "<br>" + tr( "GEOM_POLE_I" ).arg( i+1 ) +
+ "(" + PRINT_DOUBLE( aDbls[i*3], aLenPrecision ) +
+ ", " + PRINT_DOUBLE( aDbls[i*3+1], aLenPrecision ) +
+ ", " + PRINT_DOUBLE( aDbls[i*3+2], aLenPrecision ) +
+ " )\t" + PRINT_DOUBLE( aDbls[widx+i], aLenPrecision );
+ }
+ } else {
+ for (i=0; i<nb; i++) {
+ theParameters +=
+ "<br>" + tr( "GEOM_POLE_I" ).arg( i+1 ) + "(" + PRINT_DOUBLE( aDbls[i*3], aLenPrecision ) +
+ ", " + PRINT_DOUBLE( aDbls[i*3+1], aLenPrecision ) +
+ ", " + PRINT_DOUBLE( aDbls[i*3+2], aLenPrecision ) + " )";
+ }
+ }
+ if (nb < anInts[2])
+ theParameters += "<br>...";
+ // Show max. 5 knots
+ theParameters += "<br>" + TITLE( "GEOM_KNOTS" );
+ nb = std::min(5, anInts[3]);
+ Standard_Integer kidx = anInts[2] * 3; // skip poles
+ if (anInts[5] == anInts[3]) {
+ // Each knot has a multiplicity associated
+ for (i=0; i<nb; i++) {
+ theParameters +=
+ "<br>" + tr( "GEOM_KNOT_I" ).arg( i+1 ) + PRINT_DOUBLE( aDbls[kidx+i], aLenPrecision ) +
+ "\t" + PRINT_INTEGER( anInts[6+i] );
+ }
+ } else {
+ // Each pole has a uniform weight of 1 (do not show it)
+ for (i=0; i<nb; i++) {
+ theParameters +=
+ "<br>" + tr( "GEOM_POLE_I" ).arg( i+1 ) + PRINT_DOUBLE( aDbls[kidx+i], aLenPrecision );
+ }
+ }
+ if (nb < anInts[3])
+ theParameters = theParameters + "<br>...";
+ }
+ break;
+ case GEOM::GEOM_IKindOfShape::CRV_BEZIER:
+ {
+ aKindStr = tr( "GEOM_CRV_BEZIER" );
+ theParameters = TITLE( "GEOM_PARAMETERS" ) +
+ "<br>" + tr( "GEOM_NUM_POLES" ) + PRINT_INTEGER( anInts[0] ) +
+ "<br>" + tr( "GEOM_NUM_WEIGHTS" ) + PRINT_INTEGER( anInts[1] ) +
+ "<br>" + TITLE( "GEOM_POLES" );
+ Standard_Integer i, nb = std::min(5, anInts[0]); // show max. 5 poles
+ if (anInts[1] > 0) {
+ Standard_Integer widx = anInts[2] * 3 + anInts[3];
+ for (i=0; i<nb; i++) {
+ theParameters = theParameters +
+ "<br>" + tr( "GEOM_POLE_I" ).arg( i+1 ) + "(" + PRINT_DOUBLE( aDbls[i*3], aLenPrecision ) +
+ ", " + PRINT_DOUBLE( aDbls[i*3+1], aLenPrecision ) +
+ ", " + PRINT_DOUBLE( aDbls[i*3+2], aLenPrecision ) +
+ ") " + PRINT_DOUBLE( aDbls[widx+i], aLenPrecision );
+ }
+ } else {
+ for (i=0; i<nb; i++) {
+ theParameters = theParameters +
+ "<br>" + tr( "GEOM_POLE_I" ).arg( i+1 ) + "(" + PRINT_DOUBLE( aDbls[i*3], aLenPrecision ) +
+ ", " + PRINT_DOUBLE( aDbls[i*3+1], aLenPrecision ) +
+ ", " + PRINT_DOUBLE( aDbls[i*3+2], aLenPrecision ) + ")";
+ }
+ }
+ if (nb < anInts[0])
+ theParameters = theParameters + "<br>...";
+ }
+ break;
+ case GEOM::GEOM_IKindOfShape::HYPERBOLA:
+ aKindStr = tr( "GEOM_HYPERBOLA" );
+ theParameters = TITLE( "GEOM_CENTER" ) +
+ "<br>" + tr( "GEOM_X_I" ).arg( 0 ) + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
+ "<br>" + tr( "GEOM_Y_I" ).arg( 0 ) + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
+ "<br>" + tr( "GEOM_Z_I" ).arg( 0 ) + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
+ "<br>" + TITLE( "GEOM_NORMAL" ) +
+ "<br>" + tr( "GEOM_DX" ) + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
+ "<br>" + tr( "GEOM_DY" ) + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
+ "<br>" + tr( "GEOM_DZ" ) + PRINT_DOUBLE( aDbls[5], aLenPrecision ) +
+ "<br>" + TITLE( "GEOM_DIMENSIONS" ) +
+ "<br>" + tr( "GEOM_RADIUS_I" ).arg( 1 ) + PRINT_DOUBLE( aDbls[6], aLenPrecision ) +
+ "<br>" + tr( "GEOM_RADIUS_I" ).arg( 2 ) + PRINT_DOUBLE( aDbls[7], aLenPrecision ) +
+ "<br>" + TITLE( "GEOM_X_AXIS") +
+ "<br>" + "Xx :" + PRINT_DOUBLE( aDbls[8], aLenPrecision ) +
+ "<br>" + "Xy :" + PRINT_DOUBLE( aDbls[9], aLenPrecision ) +
+ "<br>" + "Xz :" + PRINT_DOUBLE( aDbls[10], aLenPrecision ) +
+ "<br>" + TITLE( "GEOM_Y_AXIS") +
+ "<br>" + "Yx :" + PRINT_DOUBLE( aDbls[11], aLenPrecision ) +
+ "<br>" + "Yy :" + PRINT_DOUBLE( aDbls[12], aLenPrecision ) +
+ "<br>" + "Yz :" + PRINT_DOUBLE( aDbls[13], aLenPrecision );
+ break;
+ case GEOM::GEOM_IKindOfShape::PARABOLA:
+ aKindStr = tr( "GEOM_PARABOLA" );
+ theParameters = TITLE( "GEOM_CENTER" ) +
+ "<br>" + tr( "GEOM_X_I" ).arg( 0 ) + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
+ "<br>" + tr( "GEOM_Y_I" ).arg( 0 ) + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
+ "<br>" + tr( "GEOM_Z_I" ).arg( 0 ) + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
+ "<br>" + TITLE( "GEOM_NORMAL" ) +
+ "<br>" + tr( "GEOM_DX" ) + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
+ "<br>" + tr( "GEOM_DY" ) + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
+ "<br>" + tr( "GEOM_DZ" ) + PRINT_DOUBLE( aDbls[5], aLenPrecision ) +
+ "<br>" + TITLE( "GEOM_DIMENSIONS" ) +
+ "<br>" + tr( "GEOM_FOCAL_LENGTH" ) + PRINT_DOUBLE( aDbls[6], aLenPrecision ) +
+ "<br>" + TITLE( "GEOM_X_AXIS") +
+ "<br>" + "Xx :" + PRINT_DOUBLE( aDbls[7], aLenPrecision ) +
+ "<br>" + "Xy :" + PRINT_DOUBLE( aDbls[8], aLenPrecision ) +
+ "<br>" + "Xz :" + PRINT_DOUBLE( aDbls[9], aLenPrecision ) +
+ "<br>" + TITLE( "GEOM_Y_AXIS") +
+ "<br>" + "Yx :" + PRINT_DOUBLE( aDbls[10], aLenPrecision ) +
+ "<br>" + "Yy :" + PRINT_DOUBLE( aDbls[11], aLenPrecision ) +
+ "<br>" + "Yz :" + PRINT_DOUBLE( aDbls[12], aLenPrecision );
+ break;
+