One of the great feelings about working with OpenSource is that the most outlandish questions you can dream up may be not so outlandish at all, given the number of people sharing information on the net, and so it is definitely worth thinking about a quality search engine “search” string to start your research and development on the subject.
A case in point for me, after some days working with C++ OpenGL coding (as you can see at C++ OpenGL in Xcode Generic Regular Prism Drawing Tutorial) was …
Are there any conversion programs out there that will convert our C++ OpenGL code to Javascript WebGL?
… which, at first glance, may seem pretty outlandish, because C++ and Javascript differ so much, but, yes, there are OpenSource converters out there, and the Google search …
… led me to the Emscripten OpenGL to WebGL porting suite of software.
Now it panned out that a different Google search as per …
… ended up helping out more with PHP and Javascript and CSS WebGL Prism Tutorial as shown below, but, nevertheless, the Hello World scenario worked with Emscripten, and feel that it deserves more analysis down the track, as much as anything because the C++ OpenGL Xcode combination is a great environment in which to develop software, and if there was a converter to help make any porting to Javascript WebGL easier in any way, would save a lot of time, and perhaps reduce mistakes, as both OpenGL and WebGL require many lines of code by their very nature … 3D graphics rendering is a pretty complex task.
If you see all today’s tutorial, you’ll see more of the story in …
- the download and install of Emscripten as unix executables accessible via Mac OS X Terminal bash environment
- the (unsuccessful) attempt to take the C++ code of C++ OpenGL in Xcode Generic Regular Prism Drawing Tutorial and use Emscripten to convert this to WebGL Javascript code
- the (successful) conversion of a Hello World scenario of C++ code and use Emscripten to convert this to WebGL Javascript code
While we are on about conversion ideas, maybe you would be interested in …
- PHP to Python translator Google search
- ASP.Net to PHP translator Google search
- Java to C++ translator Google search
Hope ideas spring eternal for you.
Previous relevant PHP and Javascript and CSS WebGL Prism Tutorial is shown below.
To infinity and beyond!! … well, at least to the 3rd dimension … yes, we’re rejoining our Geometry and Land Surveying theme today, rejoining the discussion of PHP and Javascript and CSS Shape Rotation Tutorial as shown below, but giving some additional functionality to show the Convex Polygon shape with an added dimension by displaying its 3D prism equivalent via the WebGL API, modelling the additional code via the public generosity and wonderful resources from the University of New Mexico … our heartfelt thanks.
If you have been a recent reader you’ll have seen that we have been discussing OpenGL. OpenGL has a OpenGL.org landing page which will talk about all the platforms supported, and let’s just remind you about the purpose, with a quote from the webpage …
The Industry’s Foundation for High Performance Graphics
from games to virtual reality, mobile phones to supercomputers
… well, today, we use some of that knowledge … some being the operative word, and we’ll talk more on this tomorrow, but … with the sequence of blog posts culminating in C++ OpenGL in Xcode Generic Regular Prism Drawing Tutorial we learnt some things about graphics software and the concepts of …
- object vertices definition
- object colour
- lighting … direction, type, angle, numbers of sources etcetera
- perspective … field of view, aspect ratio, Z position
… and the Land Surveying use of thinking about Survey Traverses as an idea to genericize the vertex definition phase, as this is the major difference between drawing a “cube” or a “hexagonal prism” or a “butterfly in Brazil” (just kidding … that’s for tomorrow (in Klingon time)).
So the wonderful code from the University of New Mexico (via StackOverflow) was to show a cube, and the use of buttons to display animation and rendering “smarts” … so am really really really keen for you to examine this additional HTML code of today you could call webgl_test.html … we change it to add some Land Surveying feeling to the creation of vertices for our Convex Polygon extended into a Prism arrangement as per the Javascript code …
var numsides = location.search.split('numsides=')[1] ? location.search.split('numsides=')[1].split('&')[0] : 4;
var NumVertices = eval((numsides * 2) * 3);
var evalc="", evalcol="";
var delim="[";
var sidelen=eval((1.0 * 3.0) / numsides);
var x=eval(0.0 - (sidelen / 2.0) * (numsides / 3)), y=eval(0.0 - (sidelen / 2.0) * (numsides / 3)), z=1.5, otherz=0.5, thisis=1;
var bearing=0.0;
var prevbearing;
var nextx, nexty, nextis=2;
var prevx, prevy, previs=numsides, downis=eval(numsides);
downis++;
evalc="";
for (ij=0; ij<eval(numsides * 2); ij++) {
if (ij == numsides) {
z=0.5;
otherz=1.5;
}
nextx=eval(x + sidelen * Math.sin(bearing / 57.2957795));
if (Math.abs(nextx) < 0.00001) nextx = 0.0;
nexty=eval(y + sidelen * Math.cos(bearing / 57.2957795));
if (Math.abs(nexty) < 0.00001) nexty = 0.0;
prevbearing = ((bearing + 540 - (360.0 / numsides)) % 360.0);
prevx=eval(x + sidelen * Math.sin(prevbearing / 57.2957795));
if (Math.abs(prevx) < 0.00001) prevx = 0.0;
prevy=eval(y + sidelen * Math.cos(prevbearing / 57.2957795));
if (Math.abs(prevy) < 0.00001) prevy = 0.0;
if (eval((ij + 1) % numsides) != 0) {
evalc += (delim + "vec4(" + x + "," + y + "," + z + ",1.0) /" + "/" + thisis + "\n");
evalcol += (delim + "vec4( 1.0, 0.0, 0.0, 1.0 ) /" + "/red \n");
delim=",";
evalc += (delim + "vec4(" + nextx + "," + nexty + "," + z + ",1.0) /" + "/" + nextis + "\n");
evalcol += (delim + "vec4( 1.0, 0.0, 0.0, 1.0 ) /" + "/red \n");
}
if ((ij % numsides) == 0) {
evalc += (delim + "vec4(" + x + "," + y + "," + z + ",1.0) /" + "/" + thisis + "\n");
evalcol += (delim + "vec4( 1.0, 0.0, 0.0, 1.0 ) /" + "/red \n");
evalc += (delim + "vec4(" + prevx + "," + prevy + "," + z + ",1.0) /" + "/" + previs + "\n");
evalcol += (delim + "vec4( 1.0, 0.0, 0.0, 1.0 ) /" + "/red \n");
previs = eval(previs * 2);
}
if (ij < numsides) {
evalc += (delim + "vec4(" + x + "," + y + "," + z + ",1.0) /" + "/" + thisis + "\n");
evalcol += (delim + "vec4( 1.0, 0.0, 0.0, 1.0 ) /" + "/red \n");
evalc += (delim + "vec4(" + x + "," + y + "," + otherz + ",1.0) /" + "/" + downis + "\n");
evalcol += (delim + "vec4( 1.0, 0.0, 0.0, 1.0 ) /" + "/red \n");
}
x = nextx;
y = nexty;
thisis++;
nextis++;
downis++;
bearing += (360.0 / numsides);
}
evalc += "];";
evalcol += "];";
var vertices;
vertices = eval(evalc);
WebGL API performs its graphics via the use of the HTML5 canvas element. We’ll be discussing more on this topic, no doubt, as time goes on.
Here is a link to Shape Draw live run (with Google Line Chart and HTML svg and WebGL 3D Prism drawing and University of New Mexico inspired animation functionality) here.
Here is a link to Shape Draw PHP source code ShapeDraw.php with changes from previous code as per this link.
Try it out, and get into web based 3D graphics via the WebGL API … you’ll be drawing prism animals before the sun goes down!
Previous relevant PHP and Javascript and CSS Shape Rotation Tutorial is shown below.
We’re continuing on with our Geometry and Land Surveying theme today, following on from yesterday’s PHP and Javascript and CSS Shape Drawing Tutorial as shown below. When there are only small distances we talk about Plane Geometry because the curvature of the earth doesn’t come into the equation. When Earth curvature matters, over longer distances, in Land Surveying the term Geodetic Surveying is often used. Here, the equations used need to model the Earth as close as possible to known measurements.
If you read yesterday’s posting you’ll see that we added some popup window functionality to display the Convex Polygon created by the web application in a relative sense, and to do this we called on (where variable “opop” is global in scope) …
opop = window.open("", "Polygon " + numlegs, "left=400,top=250,height=" + parseFloat(50 + maxy) + ",width=" + parseFloat(50 + maxx));
opop.document.write([someDerivedHTML]);
We’re here, today, to remind you, that that popup doesn’t have to be like a dead fish, just displaying information. It can be interactive itself, and is known to the “parent” window, so can have its own “hidden input” HTML element (for example) as per …
<input id="myunload" type="hidden" value=""></input>
… that is updated when a button as per (this function, that is used to create this button and a related dropdown) …
function buttonideas() {
var crotate1 = "<input type='button' onclick=' if (document.getElementById(\"myunload\") != null) { document.getElementById(\"myunload\").value=\"" + initiallength + "," + numlegs + "," + "\" + document.getElementById(\"myselect\").value; }' value='Rotate Clockwise'></input> <select id='myselect'><option value='" + eval(180.0 / numlegs) + "'>By " + eval(180.0 / numlegs) + "° ... vs ...</option></select>";
for (var steps=0; steps<=360; steps++) {
crotate1=crotate1.replace("</option></select>", "</option><option value='" + steps + "'>By " + steps + "°</option></select>");
}
return crotate1;
}
… then our “parent” window can swing into action via a setInterval() scenario (where variable sipos is global) …
sipos = setInterval(takealook, 5000);
… with code like …
function takealook() {
var things;
if (opop != null) {
if (opop.document.getElementById('myunload').value.indexOf(",") != -1) {
things = opop.document.getElementById('myunload').value.split(",");
opop.close();
opop = null;
if (things.length >= 3) {
if (sipos != null) { clearInterval(sipos); sipos = null; }
var bis = 0.0;
bis += parseFloat(initialbearing);
bis += parseFloat(things[2]);
window.location = "./ShapeDraw.php?sides=" + things[1] + ",0&length=" + things[0] + "&bearing=" + posval(bis);
}
}
}
}
… to allow for some HTML “svg” element rotation functionality, if the button is pressed, that is. One last nicety is to use the Window Event “onunload” to clear the setInterval handler with a web browser close or a user closing the parent webpage as per …
<body onunload=" if (sipos != null) { clearInterval(sipos); sipos = null; }" style="background-color: #fffff0;">
Link to Shape Draw live run (with Google Line Chart and HTML svg functionality) here.
Link to Shape Draw PHP source code ShapeDraw.php with changes from code yesterday as per this link.
You may be interested in CSS3 ways to rotate HTML elements as well, so we’ll leave you with this link to point you in the direction of where we have discussed this previously.
Previous relevant PHP and Javascript and CSS Shape Drawing Tutorial is shown below.
It is no coincidence that Geometry and Land Surveying have a lot in common. When there are only small distances we talk about Plane Geometry because the curvature of the earth doesn’t come into the equation. When Earth curvature matters, over longer distances, in Land Surveying the term Geodetic Surveying is often used. Here, the equations used need to model the Earth as close as possible to known measurements.
So today, with our Plane Geometry web application, we start with our previous Survey Traverse web application, and add to its functionality with ability for it to fill out more for the user to describe a regular polygon of their choosing, defined by …
- number of polygon sides
- length of each polygon side
We also add to the Google Charts Line Graph of the Drawn Shape a popup window showing the polygon as an HTML svg element. Part of the reason for this is that the Google Chart Line Graph can exaggerate the x or y co-ordinate of its plots, but with the HTML svg element, you avoid this issue, as we are just showing you a “relative” view of the shape (ie. as distinct from an “absolute” view with distinct co-ordinates).
The thinking here started with a look at New Century Maths stages 5.2/5.3 “Exterior angle sum of a convex polygon”. Did you know?
The sum of the exterior angles of a convex polygon is 360°.
What we found to be the case, practically speaking, to imagine the drawing of a regular even-sided convex polygon (with “numsides” sides) was …
- look north …
- turn clockwise (360° / numsides) for first line to draw (NB. there is more symmetry if this number is then divided by 2) … then from then on …
- off this previous line, turn clockwise (180° + (360° / numsides)) for subsequent lines
Link to Shape Draw live run (with Google Line Chart and HTML svg functionality) here.
Link to Shape Draw PHP source code ShapeDraw.php with changes from code below as per this link.
Hope you enjoy the geometry ideas, and will leave you with a very useful link that helped with the Convex Polygon method to calculate the Surface Area here.
Previous relevant HTML and Javascript and CSS Survey Traverse Tutorial is shown below.
Here is a tutorial showing some client-side basics in HTML and Javascript and CSS all in the one HTML file, to simplify concepts. The tutorial subject matter is a webpage to perform Survey Traverse calculations. A Survey Traverse is:
Traverse is a method in the field of surveying to establish control networks.[1] It is also used in geodesy. Traverse networks involve placing survey stations along a line or path of travel, and then using the previously surveyed points as a base for observing the next point. Traverse networks have many advantages, including:
Less reconnaissance and organization needed;
While in other systems, which may require the survey to be performed along a rigid polygon shape, the traverse can change to any shape and thus can accommodate a great deal of different terrains;
Only a few observations need to be taken at each station, whereas in other survey networks a great deal of angular and linear observations need to be made and considered;
Traverse networks are free of the strength of figure considerations that happen in triangular systems;
Scale error does not add up as the traverse is performed. Azimuth swing errors can also be reduced by increasing the distance between stations.The traverse is more accurate than triangulateration[2] (a combined function of the triangulation and trilateration practice).[3]
Let’s see some simple HTML in action in a tutorial …
Link to HTML “spiritual home” … at W3Schools has many tutorials.
Link to Survey Traverse live run … here.
Link to Survey Traverse live run (additional Google Line Chart functionality) here.
Link to Survey Traverse information … from Wikipedia from which quote above comes.
Link to some downloadable HTML code … rename to SurveyTraverse.html which packages up a lot of Javascript and a little bit of CSS … or JaCvasScriptS … not sure whether this would ever catch on.
Link to some downloadable PHP programming code (additional Google Line Chart functionality) … rename to SurveyTraverse.php
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