Examples of flanagan.complex.Complex.abs()

flanagan.complex.Complex.abs()

        if(this.logOrLinear){
            if(this.userModelSet){
                for(int i=0; i<this.numberOfLineFrequencies; i++){
                    data[2][i] = this.log10lineFrequencies[i];
                    Complex imped = userModel.modelImpedance(this.bestEstimates, this.lineFrequencies[i]*2.0D*Math.PI);
                    data[3][i] = imped.abs();
                }
            }
            else{
                for(int i=0; i<this.numberOfLineFrequencies; i++){
                    data[2][i] = this.log10lineFrequencies[i];

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            }
            else{
                for(int i=0; i<this.numberOfLineFrequencies; i++){
                    data[2][i] = this.log10lineFrequencies[i];
                    Complex imped = Impedance.modelImpedance(this.bestEstimates, this.lineFrequencies[i]*2.0D*Math.PI, this.modelNumber);
                    data[3][i] = imped.abs();
                }
            }
        }
        else{
             if(this.userModelSet){

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        else{
             if(this.userModelSet){
                for(int i=0; i<this.numberOfLineFrequencies; i++){
                    data[2][i] = this.lineFrequencies[i];
                    Complex imped = userModel.modelImpedance(this.bestEstimates, this.lineFrequencies[i]*2.0D*Math.PI);
                    data[3][i] = imped.abs();
                }
            }
            else{
                for(int i=0; i<this.numberOfLineFrequencies; i++){
                    data[2][i] = this.lineFrequencies[i];

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            }
            else{
                for(int i=0; i<this.numberOfLineFrequencies; i++){
                    data[2][i] = this.lineFrequencies[i];
                    Complex imped = Impedance.modelImpedance(this.bestEstimates, this.lineFrequencies[i]*2.0D*Math.PI, this.modelNumber);
                    data[3][i] = imped.abs();
                }
            }
        }


        PlotGraph pg = new PlotGraph(data);

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                if(this.userModelSet){
                    for(int i=0; i<this.numberOfLineFrequencies; i++){
                        data[2][i] = this.log10lineFrequencies[i];
                        Complex imped = userModel.modelImpedance(this.bestEstimates, this.lineFrequencies[i]*2.0D*Math.PI);
                        Complex volt = imped.times(this.appliedVoltage).over(this.referenceImpedance.plus(imped));
                        data[3][i] = volt.abs();
                    }
                }
                else{
                    for(int i=0; i<this.numberOfLineFrequencies; i++){
                        data[2][i] = this.log10lineFrequencies[i];

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                else{
                    for(int i=0; i<this.numberOfLineFrequencies; i++){
                        data[2][i] = this.log10lineFrequencies[i];
                        Complex imped = Impedance.modelImpedance(this.bestEstimates, this.lineFrequencies[i]*2.0D*Math.PI, this.modelNumber);
                        Complex volt = imped.times(this.appliedVoltage).over(this.referenceImpedance.plus(imped));
                        data[3][i] = volt.abs();
                    }
                }
            }
            else{
               if(this.userModelSet){

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               if(this.userModelSet){
                    for(int i=0; i<this.numberOfLineFrequencies; i++){
                        data[2][i] = this.lineFrequencies[i];
                        Complex imped = userModel.modelImpedance(this.bestEstimates, this.lineFrequencies[i]*2.0D*Math.PI);
                        Complex volt = imped.times(this.appliedVoltage).over(this.referenceImpedance.plus(imped));
                        data[3][i] = volt.abs();
                    }
                }
                else{
                    for(int i=0; i<this.numberOfLineFrequencies; i++){
                        data[2][i] = this.lineFrequencies[i];

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                else{
                    for(int i=0; i<this.numberOfLineFrequencies; i++){
                        data[2][i] = this.lineFrequencies[i];
                        Complex imped = Impedance.modelImpedance(this.bestEstimates, this.lineFrequencies[i]*2.0D*Math.PI, this.modelNumber);
                        Complex volt = imped.times(this.appliedVoltage).over(this.referenceImpedance.plus(imped));
                        data[3][i] = volt.abs();
                    }
                }
            }


            PlotGraph pg = new PlotGraph(data);

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                if(this.userModelSet){
                    for(int i=0; i<this.numberOfLineFrequencies; i++){
                        data[2][i] = this.log10lineFrequencies[i];
                        Complex imped = userModel.modelImpedance(this.bestEstimates, this.lineFrequencies[i]*2.0D*Math.PI);
                        Complex volt = imped.times(this.appliedVoltage).over(this.referenceImpedance.plus(imped));
                        data[3][i] = volt.abs();
                    }
                }
                else{
                    for(int i=0; i<this.numberOfLineFrequencies; i++){
                        data[2][i] = this.log10lineFrequencies[i];

View Full Code Here

                else{
                    for(int i=0; i<this.numberOfLineFrequencies; i++){
                        data[2][i] = this.log10lineFrequencies[i];
                        Complex imped = Impedance.modelImpedance(this.bestEstimates, this.lineFrequencies[i]*2.0D*Math.PI, this.modelNumber);
                        Complex volt = imped.times(this.appliedVoltage).over(this.referenceImpedance.plus(imped));
                        data[3][i] = volt.abs();
                    }
                }
            }
            else{
               if(this.userModelSet){

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