Difference between revisions of "Team:Cambridge-JIC/Make Your Own js"
(Undo revision 248084 by MariaFMBalson (talk)) |
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| Line 131: | Line 131: | ||
final = function(options) { | final = function(options) { | ||
window.location.href="#CC0"; | window.location.href="#CC0"; | ||
| − | ret = '<h3>Thanks!</h3><br/><table><tr><th colspan="5" style="text-align:center">3D PRINTED COMPONENTS</th></tr><tr><th>Number</th><th>Part</th><th>Cost per unit (GBP)</th><th>STL file</th><th>SCAD file</th></tr><tr><td>1</td><td>main stage</td></tr><tr><td>3</td><td>legs</td></tr><tr><td>2</td><td>side supports for z axis</td></tr><tr><td>1</td><td>z axis in 3 parts (vertical + horizontal + connector)</td></tr><tr><td>1</td><td>connecting ring bw z axes</td></tr><tr><td>1</td><td>3-legged camera holder</td></tr><tr><td>2</td><td>slide clips</td></tr><tr><td>1</td><td>bright-field cube</td></tr>' | + | ret = '<h3>Thanks!</h3><br/><h4>Here\'s what you'll need:</h4><br/><table><tr><th colspan="5" style="text-align:center">3D PRINTED COMPONENTS</th></tr><tr><th>Number</th><th>Part</th><th>Cost per unit (GBP)</th><th>STL file</th><th>SCAD file</th></tr><tr><td>1</td><td>main stage</td></tr><tr><td>3</td><td>legs</td></tr><tr><td>2</td><td>side supports for z axis</td></tr><tr><td>1</td><td>z axis in 3 parts (vertical + horizontal + connector)</td></tr><tr><td>1</td><td>connecting ring bw z axes</td></tr><tr><td>1</td><td>3-legged camera holder</td></tr><tr><td>2</td><td>slide clips</td></tr><tr><td>1</td><td>bright-field cube</td></tr>' |
if(options[1] == 0) { | if(options[1] == 0) { | ||
ret += '<tr><td>1</td><td>dark-field tube in N parts</td></tr>' | ret += '<tr><td>1</td><td>dark-field tube in N parts</td></tr>' | ||
Revision as of 12:18, 15 September 2015
quiz = function(elem){
this.elem = $(elem);
this.steps = [];
this.step = function(question, answers) {
this.question = question;
this.answers = {};
this.bind = function(target, keys) {
if (typeof keys === "undefined") {
keys = Object.keys(this.answers);
}
for (var i=0; i<keys.length; i++) {
key = keys[i];
this.answers[key].target = target;
}
};
this.elem = function(quiz, index) {
elem = $('');
elem.append($('').text(this.question));
for (key in this.answers) {
elem.append($('
').text(this.question));
for (key in this.answers) {
elem.append($('')
.text(this.answers[key].answer)
.data("key", key)
.data("step", this)
.data("quiz", quiz)
.data("index", index)
.click(function(){
key = $(this).data("key");
step = $(this).data("step");
quiz = $(this).data("quiz");
index = $(this).data("index");
ref = quiz.steps[index];
ref.elem.find('.cam-quiz-selected').removeClass('cam-quiz-selected');
$(this).addClass('cam-quiz-selected');
for (var i=quiz.steps.length; --i>index;) {
quiz.steps[i].elem.remove();
quiz.steps.pop();
}
quiz.steps[index].option = key;
nstep = step.answers[key].target;
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case "object":
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var nref = {
'step': nstep,
'elem': nstep.elem(quiz, nindex),
'option': undefined
};
quiz.steps.push(nref);
quiz.elem.append(nref.elem);
break;
case "function":
options = [];
for (var i=0; i<quiz.steps.length; i++) {
options.push(quiz.steps[i].option);
}
var nref = {
'step': undefined,
'elem': $('')
.append(nstep(options)),
'option': undefined
};
quiz.steps.push(nref);
quiz.elem.append(nref.elem);
break;
default:
alert("Quiz error! Please contact the site maintainers....");
break;
}
}));
}
return elem;
};
for (key in answers) {
answer = answers[key];
this.answers[key] = {
'answer': answer,
'target': undefined
};
}
};
this.start = function(step) {
index = this.steps.length;
ref = {
'step': step,
'elem': step.elem(this, index),
'option': undefined
};
this.steps.push(ref);
this.elem.append(ref.elem);
};
};
$(document).ready(function(){
q = new quiz('#cam-quiz');
step0 = new q.step("Tell us which options you'd like for your microscope.", {
1: "Okay!"
});
step1 = new q.step("Besides bright-field, do you need dark-field imaging?", {
0: "Yes",
1: "No"
});
step2 = new q.step("Do you need to image GFP fluorescence?", {
0: "Yes",
1: "No"
});
step3 = new q.step("Do you need to image RFP fluorescence?", {
0: "Yes",
1: "No"
});
step4 = new q.step("Do you need to image other fluorescent proteins, e.g. YFP?", {
0: "Yes",
1: "No"
});
step5 = new q.step("Do you want your microscope to be manual, motorised, or will you need to swap between both?", {
0: "Manual only",
1: "Motorised only",
2: "Both",
});
step6 = new q.step("Do you need your microscope to be fully battery-powered, e.g. for fieldwork?", {
0: "Yes",
1: "No"
});
final = function(options) {
window.location.href="#CC0";
ret = '<h3>Thanks!</h3>
Here\'s what you'll need:
3D PRINTED COMPONENTS Number Part Cost per unit (GBP) STL file SCAD file 1 main stage 3 legs 2 side supports for z axis 1 z axis in 3 parts (vertical + horizontal + connector) 1 connecting ring bw z axes 1 3-legged camera holder 2 slide clips 1 bright-field cube if(options[1] == 0) {
ret += '1 dark-field tube in N parts }
if(options[2] == 0 && options[3] == 0 && options[4] == 0) {
ret += '3 epicubes 3 drawers for the excitation filters 3 drawers for the emission filters 3 drawers for the dichroic mirrors }
else if((options[2] == 0 && options[3] == 0) || (options[2] == 0 && options[4] == 0) || (options[3] == 0 && options[4] == 0)) {
ret += '2 epicubes 2 drawers for the excitation filters 2 drawers for the emission filters 2 drawers for the dichroic mirrors } else if(options[2] == 0 || options[3] == 0 || options[4] == 0) {
ret += '1 epicube 1 drawer for the excitation filter 1 drawer for the emission filter 1 drawer for the dichroic mirror }
if(options[5] == 0 || options[5] == 2) {
ret += '3 screw gears 3 manual gears 3 screw holders }
if(options[5] == 1 || options[5] == 2) {
ret += '3 screw gears for motors 3 motor holders }
if((options[5] == 1 || options[5] == 2) && options[6] == 1) {
ret += '1 battery holder for RPi }
if((options[5] == 1 || options[5] == 2) && options[6] == 0) {
ret += '2 battery holders for RPi }
if(options[6] == 0 && !(options[5] == 1 || options[5] == 2)) {
ret += '1 battery holder for RPi }
ret += '
'
ret += '
OFF-THE-SHELF COMPONENTS Number Part Cost per unit (GBP) Description/Provider ~5 bright-field LEDs ?? lenses 2 25 mm long M4 screws 1 40 mm long M4 screw 3 M4 nuts + washers 1 Raspberry Pi 2 Model B 1 Ralink RT5370 WiFi adapter 1 Arduino UNO with its USB B connector 1 breadboard 1 16GB micro SD card 1 20 ohm resistor 1 ethernet cable ?? insulated single-core wire if(options[2] == 0 && options[3] == 0 && options[4] == 0) {
ret += '3 RPi cameras 1 RPi ribbon cable comes with RPi camera }
else if((options[2] == 0 && options[3] == 0) || (options[2] == 0 && options[4] == 0) || (options[3] == 0 && options[4] == 0)) {
ret += '2 RPi cameras 1 RPi ribbon cable comes with RPi camera } else if(options[2] == 0 || options[3] == 0 || options[4] == 0) {
ret += '1 RPi camera 1 RPi ribbon cable comes with RPi camera }
if(options[2] == 0) {
ret += '~5 LEDs (GFP) 1 dichroic mirror (GFP) 1 excitation filter (GFP) 1 emission filter (GFP) }
if(options[3] == 0) {
ret += '~5 LEDs (RFP) 1 dichroic mirror (RFP) 1 excitation filter (RFP) 1 emission filter (RFP) }
if(options[4] == 0) {
ret += '~5 LEDs tailored to FP 1 dichroic mirror tailored to FP 1 excitation filter tailored to FP 1 emission filter tailored to FP }
if(options[5] == 1 || options[5] == 2) {
ret += '3 stepper motors 2 UNL2003A Darlington driver chips }
if((options[5] == 1 || options[5] == 2) && options[6] == 1) {
ret += '1 9V battery connector }
if((options[5] == 1 || options[5] == 2) && options[6] == 0) {
ret += '2 9V battery connectors }
if(options[6] == 0 && !(options[5] == 1 || options[5] == 2)) {
ret += '1 9V battery connector }
if(options[6] == 0) {
ret += '1 1 MoPi power board }
if(options[6] == 1) {
ret += '1 2A micro USB power cable }
ret += '
'
return $('').html(ret)
}
step0.bind(step1, [1]);
step1.bind(step2, [0]);
step1.bind(step2, [1]);
step2.bind(step3, [0]);
step2.bind(step3, [1]);
step3.bind(step4, [0]);
step3.bind(step4, [1]);
step4.bind(step5, [0]);
step4.bind(step5, [1]);
step5.bind(step6, [0]);
step5.bind(step6, [1]);
step5.bind(step6, [2]);
step6.bind(final, [0]);
step6.bind(final, [1]);
q.start(step0);
});
.text(this.answers[key].answer)
.data("key", key)
.data("step", this)
.data("quiz", quiz)
.data("index", index)
.click(function(){
key = $(this).data("key");
step = $(this).data("step");
quiz = $(this).data("quiz");
index = $(this).data("index");
ref = quiz.steps[index];
ref.elem.find('.cam-quiz-selected').removeClass('cam-quiz-selected');
$(this).addClass('cam-quiz-selected');
for (var i=quiz.steps.length; --i>index;) {
quiz.steps[i].elem.remove();
quiz.steps.pop();
}
quiz.steps[index].option = key;
nstep = step.answers[key].target;
switch (typeof nstep) {
case "object":
var nindex = quiz.steps.length;
var nref = {
'step': nstep,
'elem': nstep.elem(quiz, nindex),
'option': undefined
};
quiz.steps.push(nref);
quiz.elem.append(nref.elem);
break;
case "function":
options = [];
for (var i=0; i<quiz.steps.length; i++) {
options.push(quiz.steps[i].option);
}
var nref = {
'step': undefined,
'elem': $('')
Here\'s what you'll need:
'
ret += '
'
return $('
.append(nstep(options)),
'option': undefined
};
quiz.steps.push(nref);
quiz.elem.append(nref.elem);
break;
default:
alert("Quiz error! Please contact the site maintainers....");
break;
}
}));
}
return elem;
};
for (key in answers) {
answer = answers[key];
this.answers[key] = {
'answer': answer,
'target': undefined
};
}
};
this.start = function(step) {
index = this.steps.length;
ref = {
'step': step,
'elem': step.elem(this, index),
'option': undefined
};
this.steps.push(ref);
this.elem.append(ref.elem);
};
};
$(document).ready(function(){
q = new quiz('#cam-quiz');
step0 = new q.step("Tell us which options you'd like for your microscope.", {
1: "Okay!"
});
step1 = new q.step("Besides bright-field, do you need dark-field imaging?", {
0: "Yes",
1: "No"
});
step2 = new q.step("Do you need to image GFP fluorescence?", {
0: "Yes",
1: "No"
});
step3 = new q.step("Do you need to image RFP fluorescence?", {
0: "Yes",
1: "No"
});
step4 = new q.step("Do you need to image other fluorescent proteins, e.g. YFP?", {
0: "Yes",
1: "No"
});
step5 = new q.step("Do you want your microscope to be manual, motorised, or will you need to swap between both?", {
0: "Manual only",
1: "Motorised only",
2: "Both",
});
step6 = new q.step("Do you need your microscope to be fully battery-powered, e.g. for fieldwork?", {
0: "Yes",
1: "No"
});
final = function(options) {
window.location.href="#CC0";ret = '<h3>Thanks!</h3>
Here\'s what you'll need:
| 3D PRINTED COMPONENTS | ||||
|---|---|---|---|---|
| Number | Part | Cost per unit (GBP) | STL file | SCAD file |
| 1 | main stage | |||
| 3 | legs | |||
| 2 | side supports for z axis | |||
| 1 | z axis in 3 parts (vertical + horizontal + connector) | |||
| 1 | connecting ring bw z axes | |||
| 1 | 3-legged camera holder | |||
| 2 | slide clips | |||
| 1 | bright-field cube | |||
| 1 | dark-field tube in N parts | |||
| 3 | epicubes | |||
| 3 | drawers for the excitation filters | |||
| 3 | drawers for the emission filters | |||
| 3 | drawers for the dichroic mirrors | |||
| 2 | epicubes | |||
| 2 | drawers for the excitation filters | |||
| 2 | drawers for the emission filters | |||
| 2 | drawers for the dichroic mirrors | |||
| 1 | epicube | |||
| 1 | drawer for the excitation filter | |||
| 1 | drawer for the emission filter | |||
| 1 | drawer for the dichroic mirror | |||
| 3 | screw gears | |||
| 3 | manual gears | |||
| 3 | screw holders | |||
| 3 | screw gears for motors | |||
| 3 | motor holders | |||
| 1 | battery holder for RPi | |||
| 2 | battery holders for RPi | |||
| 1 | battery holder for RPi | |||
| OFF-THE-SHELF COMPONENTS | |||
|---|---|---|---|
| Number | Part | Cost per unit (GBP) | Description/Provider |
| ~5 | bright-field LEDs | ||
| ?? | lenses | ||
| 2 | 25 mm long M4 screws | ||
| 1 | 40 mm long M4 screw | ||
| 3 | M4 nuts + washers | ||
| 1 | Raspberry Pi 2 Model B | ||
| 1 | Ralink RT5370 WiFi adapter | ||
| 1 | Arduino UNO with its USB B connector | ||
| 1 | breadboard | ||
| 1 | 16GB micro SD card | ||
| 1 | 20 ohm resistor | ||
| 1 | ethernet cable | ||
| ?? | insulated single-core wire | ||
| 3 | RPi cameras | ||
| 1 | RPi ribbon cable | comes with RPi camera | |
| 2 | RPi cameras | ||
| 1 | RPi ribbon cable | comes with RPi camera | |
| 1 | RPi camera | ||
| 1 | RPi ribbon cable | comes with RPi camera | |
| ~5 | LEDs (GFP) | ||
| 1 | dichroic mirror (GFP) | ||
| 1 | excitation filter (GFP) | ||
| 1 | emission filter (GFP) | ||
| ~5 | LEDs (RFP) | ||
| 1 | dichroic mirror (RFP) | ||
| 1 | excitation filter (RFP) | ||
| 1 | emission filter (RFP) | ||
| ~5 | LEDs | tailored to FP | |
| 1 | dichroic mirror | tailored to FP | |
| 1 | excitation filter | tailored to FP | |
| 1 | emission filter | tailored to FP | |
| 3 | stepper motors | ||
| 2 | UNL2003A Darlington driver chips | ||
| 1 | 9V battery connector | ||
| 2 | 9V battery connectors | ||
| 1 | 9V battery connector | ||
| 1 | 1 MoPi power board | ||
| 1 | 2A micro USB power cable | ||
').html(ret)
}
step0.bind(step1, [1]);
step1.bind(step2, [0]);
step1.bind(step2, [1]);
step2.bind(step3, [0]);
step2.bind(step3, [1]);
step3.bind(step4, [0]);
step3.bind(step4, [1]);
step4.bind(step5, [0]);
step4.bind(step5, [1]);
step5.bind(step6, [0]);
step5.bind(step6, [1]);
step5.bind(step6, [2]);
step6.bind(final, [0]);
step6.bind(final, [1]);
q.start(step0);
});