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Blockly.Blocks['particle_combiner'] = {
init: function() {
this.appendDummyInput()
.appendField("Combine 2 particles");
this.appendValueInput("list1")
.setCheck("particle list")
.setAlign(Blockly.ALIGN_RIGHT)
.appendField("Particle 1");
this.appendValueInput("list2")
.setCheck("particle list")
.setAlign(Blockly.ALIGN_RIGHT)
.appendField("Particle 2");
this.appendDummyInput()
.appendField("Same particle lists?")
.appendField(new Blockly.FieldDropdown([["No", "0"], ["Yes", "1"]]), "sameparticles");
this.appendDummyInput()
.appendField("Set identity to")
.appendField(new Blockly.FieldDropdown([["electron", "ELECTRON"], ["muon", "MUON"], ["pion", "PION"], ["kaon", "KAON"],
["proton", "PROTON"], ["photon", "PHOTON"], ["Phi meson", "PHI"], ["D meson", "D"],
["D* meson", "DSTAR"], ["J/Psi meson", "JPSI"],["B meson","B"], ["Lambda 0","LAMBDA0"], ["do not set","ALL"]]), "simplepid");
this.appendDummyInput()
.setAlign(Blockly.ALIGN_RIGHT)
.appendField("Min mass [GeV/c2] :")
.appendField(new Blockly.FieldNumber(0, 0, Infinity, 0.0001), "mass0");
this.appendDummyInput()
.setAlign(Blockly.ALIGN_RIGHT)
.appendField("Max mass [GeV/c2] :")
.appendField(new Blockly.FieldNumber(0, 0, Infinity, 0.0001), "mass1");
//this.appendValueInput("histogram").setCheck("histogram").appendField("Histogram");
this.appendDummyInput().appendField("Histograms");
this.appendStatementInput("histogram")
.setCheck("histogram");
this.setInputsInline(false);
this.setOutput(true, "particle list");
this.setColour(120);
this.setTooltip('Combine two particles in the new particle by making combinations between particles in two input lists. If the input connector is empty, the full particle list will be used');
this.setHelpUrl('http://belle.jp/');
}
};
Blockly.Blocks['particle_combiner3'] = {
init: function() {
this.appendDummyInput()
.appendField("Combine 3 particles");
this.appendValueInput("list1")
.setCheck("particle list")
.setAlign(Blockly.ALIGN_RIGHT)
.appendField("Particle 1");
this.appendValueInput("list2")
.setCheck("particle list")
.setAlign(Blockly.ALIGN_RIGHT)
.appendField("Particle 2");
this.appendValueInput("list3")
.setCheck("particle list")
.setAlign(Blockly.ALIGN_RIGHT)
.appendField("Particle 3");
this.appendDummyInput()
.appendField("Same particle lists?")
.appendField(new Blockly.FieldDropdown([["No", "0"], ["Yes", "1"]]), "sameparticles");
this.appendDummyInput()
.appendField("Set identity to")
.appendField(new Blockly.FieldDropdown([["electron", "ELECTRON"], ["muon", "MUON"], ["pion", "PION"], ["kaon", "KAON"],
["proton", "PROTON"], ["photon", "PHOTON"], ["Phi meson", "PHI"], ["D meson", "D"],
["D* meson", "DSTAR"], ["J/Psi meson", "JPSI"],["B meson","B"], ["Lambda 0","LAMBDA0"], ["do not set","ALL"]]), "simplepid");
this.appendDummyInput()
.setAlign(Blockly.ALIGN_RIGHT)
.appendField("Min mass [GeV/c2] :")
.appendField(new Blockly.FieldNumber(0, 0, Infinity, 0.0001), "mass0");
this.appendDummyInput()
.setAlign(Blockly.ALIGN_RIGHT)
.appendField("Max mass [GeV/c2] :")
.appendField(new Blockly.FieldNumber(0, 0, Infinity, 0.0001), "mass1");
//this.appendValueInput("histogram").setCheck("histogram").appendField("Histogram");
this.appendDummyInput().appendField("Histograms");
this.appendStatementInput("histogram")
.setCheck("histogram");
this.setInputsInline(false);
this.setOutput(true, "particle list");
this.setColour(0);
this.setTooltip('Combine three particles in the new particle by making combinations between particles in three input lists. If the input connector is empty, the full particle list will be used');
this.setHelpUrl('http://belle.jp/');
}
};
Blockly.Blocks['particle_selector'] = {
init: function() {
this.appendDummyInput()
.appendField("Select Particles");
this.appendValueInput("list1")
.setCheck("particle list")
.appendField("Particle");
this.appendDummyInput()
.appendField("Charge")
.appendField(new Blockly.FieldDropdown([["-1", "-1"], ["0", "0"], ["1", "1"], ["Any", "2"]]), "chargelist");
this.appendDummyInput()
.appendField("Type")
.appendField(new Blockly.FieldDropdown([["electron", "ELECTRON"], ["muon", "MUON"], ["pion", "PION"], ["kaon", "KAON"],
["proton", "PROTON"], ["photon", "PHOTON"], ["Phi meson", "PHI"], ["D meson", "D"],
["D* meson", "DSTAR"], ["J/Psi meson", "JPSI"],["B meson","B"],["all particles","ALL"]]), "simplepid");
//this.appendValueInput("histogram").setCheck("histogram").appendField("Histogram");
this.appendDummyInput().appendField("Histograms");
this.appendStatementInput("histogram")
.setCheck("histogram");
this.setInputsInline(false);
this.setOutput(true, "particle list");
this.setColour(65);
this.setTooltip('Create a new list of particles based on the input particle list. If the input is empty, all the particles in the event are used.');
this.setHelpUrl('http://belle.jp/');
}
};
Blockly.Blocks['histogram_creator'] = {
init: function() {
this.appendDummyInput()
.appendField("Histogram");
this.appendDummyInput()
.setAlign(Blockly.ALIGN_RIGHT)
.appendField("Title")
.appendField(new Blockly.FieldTextInput("Reconstructed Mass"), "name");
this.appendDummyInput()
.setAlign(Blockly.ALIGN_RIGHT)
.appendField("Number of bins")
.appendField(new Blockly.FieldNumber(40, 0), "nbins");
this.appendDummyInput()
.setAlign(Blockly.ALIGN_RIGHT)
.appendField("Min:")
.appendField(new Blockly.FieldNumber(0, -Infinity, Infinity, 0.0001), "min");
this.appendDummyInput()
.setAlign(Blockly.ALIGN_RIGHT)
.appendField("Max:")
.appendField(new Blockly.FieldNumber(0, -Infinity, Infinity, 0.0001), "max");
this.appendDummyInput()
.appendField("Variable")
.appendField(new Blockly.FieldDropdown([["mass", "GetMass"], ["momentum", "GetMomentum"], ["energy", "GetEnergy"],["charge", "GetCharge"], ["identity", "GetPid"],["polar angle", "GetTheta"],["cos(polar ang.)", "GetCosTheta"],["px", "GetXMomentum"],["py", "GetYMomentum"],["pz", "GetZMomentum"],["pT", "GetTransverseMomentum"],["m-m1","GetDeltaMass1"],["m-m2","GetDeltaMass2"],["m-m3","GetDeltaMass3"]]), "varname");
this.setInputsInline(true);
this.setPreviousStatement(true);
this.setNextStatement(true);
this.setColour(20);
this.setTooltip('This block handles the histogram creation and filling. Define a number of bins, minimum and maximum of the range and assign a variable to plot');
this.setHelpUrl('http://belle2.jp/');
}
};
Blockly.Blocks['simple_analysis'] = {
init: function() {
this.appendDummyInput()
.appendField("Belle II Masterclass");
this.appendDummyInput()
.appendField("Number of events: ")
.appendField(new Blockly.FieldNumber(5000, 0), "neve");
this.appendDummyInput()
.appendField("First event: ")
.appendField(new Blockly.FieldNumber(0, 0), "first");
this.appendDummyInput()
.appendField("Data Source")
.appendField(new Blockly.FieldDropdown([["hadron-1", "1"], ["hadron-2", "2"]]), "datasource");
this.appendDummyInput()
.appendField("Print particle list?")
.appendField(new Blockly.FieldDropdown([["No", "0"], ["Yes", "1"]]), "print");
this.appendValueInput("list")
.setCheck("particle list")
.appendField("Particle List");
this.setColour(230);
this.setTooltip('Run the analysis, specify data source, number of events, first event and a list of particles to process.');
this.setHelpUrl('http://belle2.jp/');
}
};
Blockly.Blocks['particle_mass_fix'] = {
init: function() {
this.appendDummyInput()
.appendField("Particle mass fix");
this.appendValueInput("list")
.setCheck("particle list")
.appendField("Particle List");
this.setOutput(true, "particle list");
this.setColour(150);
this.setTooltip('');
this.setHelpUrl('http://belle2.jp/');
}
};
Blockly.Blocks['primary_list'] = {
init: function() {
this.appendDummyInput()
.appendField("Stored Particles:");
this.appendValueInput("histogram")
.setCheck("histogram")
.appendField("Histogram:");
this.setInputsInline(true);
this.setOutput(true, "particle list");
this.setColour(180);
this.setTooltip('Create a list of primary particles, if not used, the primary particles are used in the empty particle list connectors');
this.setHelpUrl('http://belle2.jp/');
}
};