How does TikZ render an arc? Announcing the arrival of Valued Associate #679: Cesar Manara ...

Mounting TV on a weird wall that has some material between the drywall and stud

Can you force honesty by using the Speak with Dead and Zone of Truth spells together?

What are the main differences between the original Stargate SG-1 and the Final Cut edition?

What would you call this weird metallic apparatus that allows you to lift people?

A proverb that is used to imply that you have unexpectedly faced a big problem

The test team as an enemy of development? And how can this be avoided?

How to write capital alpha?

How does TikZ render an arc?

What is the "studentd" process?

Did any compiler fully use 80-bit floating point?

How often does castling occur in grandmaster games?

Did Mueller's report provide an evidentiary basis for the claim of Russian govt election interference via social media?

Is openssl rand command cryptographically secure?

Relating to the President and obstruction, were Mueller's conclusions preordained?

What is the difference between a "ranged attack" and a "ranged weapon attack"?

Can humans save crash-landed aliens?

One-one communication

Simple HTTP Server

Can an iPhone 7 be made to function as a NFC Tag?

Does the Black Tentacles spell do damage twice at the start of turn to an already restrained creature?

Google .dev domain strangely redirects to https

Was Kant an Intuitionist about mathematical objects?

I can't produce songs

Does silver oxide react with hydrogen sulfide?



How does TikZ render an arc?



Announcing the arrival of Valued Associate #679: Cesar Manara
Planned maintenance scheduled April 23, 2019 at 23:30 UTC (7:30pm US/Eastern)Draw arc in tikz when center of circle is specifiedRotate a node but not its content: the case of the ellipse decorationDrawing a TikZ arc specifying the centerHow to automatically obtain the center of the circle used to draw the arc in TikZ?TikZ: Drawing an arc from an intersection to an intersectionDrawing rectilinear curves in Tikz, aka an Etch-a-Sketch drawingTikz: get the point at the arc endLine up nested tikz enviroments or how to get rid of themHow to draw a square and its diagonals with arrows?Fill a section between two circles with TikZbegin{figure}… end{figure} is not working with tikz package












3















With the sample MWE below, TikZ generates the following diagram:



1. Drawing an arc



documentclass{article}
usepackage{tikz}
begin{document}
begin{tikzpicture}
coordinate[label=below:$a$] (a) at (0,0);

draw (a) arc(0:180:2);
end{tikzpicture}
end{document}


enter image description here



2. Drawing a circle



documentclass{article}
usepackage{tikz}
begin{document}
begin{tikzpicture}
coordinate[label=below:$a$] (a) at (0,0);
coordinate[label=below:$b$] (b) at (5,5);

draw (a) arc(0:180:2);
draw (b) circle [radius=2cm];
end{tikzpicture}
end{document}


enter image description here



With draw <coordinate> circle command, TikZ draws a circle, with the <coordinate> at its center.



With draw <coordinate> arc command, TikZ draws an arc, with the <coordinate> as one of its endpoints.



I wish to understand, why this difference of behavior and how is TikZ drawing the arc with draw (a) arc(0:180:2);.



Why does TikZ does not use (a) as its center point while drawing an arc similar to drawing a circle.



How does TikZ actually draw the arc with point a.



What is the reference and center point, when TikZ draws an arc.










share|improve this question























  • May I draw your attention to this question? IMHO the question "Why does TikZ does not use (a) as its center point while drawing an arc similar to drawing a circle?" is not really answerable, and there are more than enough answers that show you how you can get whatever behavior you want.

    – marmot
    1 hour ago








  • 1





    The mathematical geometry of an arc and a circle? Judging from the question you seem to understand it very well. (Internally TikZ approximates them with Bezier curves, if that's your question.)

    – marmot
    1 hour ago






  • 1





    What is the geometry here? It is just simply the beginning angle and the ending angle.

    – JouleV
    1 hour ago






  • 1





    The logic is very simple: consider draw (x,y) arc(alpha:beta:r); Now draw a circle of radius r such that (x,y) is at the position specified by the angle alpha, Now TikZ draws an arc from that point to the point with angle beta along that circle.

    – marmot
    1 hour ago






  • 1





    @marmot Yes, but I have to "update" myself right now

    – JouleV
    59 mins ago
















3















With the sample MWE below, TikZ generates the following diagram:



1. Drawing an arc



documentclass{article}
usepackage{tikz}
begin{document}
begin{tikzpicture}
coordinate[label=below:$a$] (a) at (0,0);

draw (a) arc(0:180:2);
end{tikzpicture}
end{document}


enter image description here



2. Drawing a circle



documentclass{article}
usepackage{tikz}
begin{document}
begin{tikzpicture}
coordinate[label=below:$a$] (a) at (0,0);
coordinate[label=below:$b$] (b) at (5,5);

draw (a) arc(0:180:2);
draw (b) circle [radius=2cm];
end{tikzpicture}
end{document}


enter image description here



With draw <coordinate> circle command, TikZ draws a circle, with the <coordinate> at its center.



With draw <coordinate> arc command, TikZ draws an arc, with the <coordinate> as one of its endpoints.



I wish to understand, why this difference of behavior and how is TikZ drawing the arc with draw (a) arc(0:180:2);.



Why does TikZ does not use (a) as its center point while drawing an arc similar to drawing a circle.



How does TikZ actually draw the arc with point a.



What is the reference and center point, when TikZ draws an arc.










share|improve this question























  • May I draw your attention to this question? IMHO the question "Why does TikZ does not use (a) as its center point while drawing an arc similar to drawing a circle?" is not really answerable, and there are more than enough answers that show you how you can get whatever behavior you want.

    – marmot
    1 hour ago








  • 1





    The mathematical geometry of an arc and a circle? Judging from the question you seem to understand it very well. (Internally TikZ approximates them with Bezier curves, if that's your question.)

    – marmot
    1 hour ago






  • 1





    What is the geometry here? It is just simply the beginning angle and the ending angle.

    – JouleV
    1 hour ago






  • 1





    The logic is very simple: consider draw (x,y) arc(alpha:beta:r); Now draw a circle of radius r such that (x,y) is at the position specified by the angle alpha, Now TikZ draws an arc from that point to the point with angle beta along that circle.

    – marmot
    1 hour ago






  • 1





    @marmot Yes, but I have to "update" myself right now

    – JouleV
    59 mins ago














3












3








3


1






With the sample MWE below, TikZ generates the following diagram:



1. Drawing an arc



documentclass{article}
usepackage{tikz}
begin{document}
begin{tikzpicture}
coordinate[label=below:$a$] (a) at (0,0);

draw (a) arc(0:180:2);
end{tikzpicture}
end{document}


enter image description here



2. Drawing a circle



documentclass{article}
usepackage{tikz}
begin{document}
begin{tikzpicture}
coordinate[label=below:$a$] (a) at (0,0);
coordinate[label=below:$b$] (b) at (5,5);

draw (a) arc(0:180:2);
draw (b) circle [radius=2cm];
end{tikzpicture}
end{document}


enter image description here



With draw <coordinate> circle command, TikZ draws a circle, with the <coordinate> at its center.



With draw <coordinate> arc command, TikZ draws an arc, with the <coordinate> as one of its endpoints.



I wish to understand, why this difference of behavior and how is TikZ drawing the arc with draw (a) arc(0:180:2);.



Why does TikZ does not use (a) as its center point while drawing an arc similar to drawing a circle.



How does TikZ actually draw the arc with point a.



What is the reference and center point, when TikZ draws an arc.










share|improve this question














With the sample MWE below, TikZ generates the following diagram:



1. Drawing an arc



documentclass{article}
usepackage{tikz}
begin{document}
begin{tikzpicture}
coordinate[label=below:$a$] (a) at (0,0);

draw (a) arc(0:180:2);
end{tikzpicture}
end{document}


enter image description here



2. Drawing a circle



documentclass{article}
usepackage{tikz}
begin{document}
begin{tikzpicture}
coordinate[label=below:$a$] (a) at (0,0);
coordinate[label=below:$b$] (b) at (5,5);

draw (a) arc(0:180:2);
draw (b) circle [radius=2cm];
end{tikzpicture}
end{document}


enter image description here



With draw <coordinate> circle command, TikZ draws a circle, with the <coordinate> at its center.



With draw <coordinate> arc command, TikZ draws an arc, with the <coordinate> as one of its endpoints.



I wish to understand, why this difference of behavior and how is TikZ drawing the arc with draw (a) arc(0:180:2);.



Why does TikZ does not use (a) as its center point while drawing an arc similar to drawing a circle.



How does TikZ actually draw the arc with point a.



What is the reference and center point, when TikZ draws an arc.







tikz-pgf






share|improve this question













share|improve this question











share|improve this question




share|improve this question










asked 1 hour ago









subham sonisubham soni

5,05483189




5,05483189













  • May I draw your attention to this question? IMHO the question "Why does TikZ does not use (a) as its center point while drawing an arc similar to drawing a circle?" is not really answerable, and there are more than enough answers that show you how you can get whatever behavior you want.

    – marmot
    1 hour ago








  • 1





    The mathematical geometry of an arc and a circle? Judging from the question you seem to understand it very well. (Internally TikZ approximates them with Bezier curves, if that's your question.)

    – marmot
    1 hour ago






  • 1





    What is the geometry here? It is just simply the beginning angle and the ending angle.

    – JouleV
    1 hour ago






  • 1





    The logic is very simple: consider draw (x,y) arc(alpha:beta:r); Now draw a circle of radius r such that (x,y) is at the position specified by the angle alpha, Now TikZ draws an arc from that point to the point with angle beta along that circle.

    – marmot
    1 hour ago






  • 1





    @marmot Yes, but I have to "update" myself right now

    – JouleV
    59 mins ago



















  • May I draw your attention to this question? IMHO the question "Why does TikZ does not use (a) as its center point while drawing an arc similar to drawing a circle?" is not really answerable, and there are more than enough answers that show you how you can get whatever behavior you want.

    – marmot
    1 hour ago








  • 1





    The mathematical geometry of an arc and a circle? Judging from the question you seem to understand it very well. (Internally TikZ approximates them with Bezier curves, if that's your question.)

    – marmot
    1 hour ago






  • 1





    What is the geometry here? It is just simply the beginning angle and the ending angle.

    – JouleV
    1 hour ago






  • 1





    The logic is very simple: consider draw (x,y) arc(alpha:beta:r); Now draw a circle of radius r such that (x,y) is at the position specified by the angle alpha, Now TikZ draws an arc from that point to the point with angle beta along that circle.

    – marmot
    1 hour ago






  • 1





    @marmot Yes, but I have to "update" myself right now

    – JouleV
    59 mins ago

















May I draw your attention to this question? IMHO the question "Why does TikZ does not use (a) as its center point while drawing an arc similar to drawing a circle?" is not really answerable, and there are more than enough answers that show you how you can get whatever behavior you want.

– marmot
1 hour ago







May I draw your attention to this question? IMHO the question "Why does TikZ does not use (a) as its center point while drawing an arc similar to drawing a circle?" is not really answerable, and there are more than enough answers that show you how you can get whatever behavior you want.

– marmot
1 hour ago






1




1





The mathematical geometry of an arc and a circle? Judging from the question you seem to understand it very well. (Internally TikZ approximates them with Bezier curves, if that's your question.)

– marmot
1 hour ago





The mathematical geometry of an arc and a circle? Judging from the question you seem to understand it very well. (Internally TikZ approximates them with Bezier curves, if that's your question.)

– marmot
1 hour ago




1




1





What is the geometry here? It is just simply the beginning angle and the ending angle.

– JouleV
1 hour ago





What is the geometry here? It is just simply the beginning angle and the ending angle.

– JouleV
1 hour ago




1




1





The logic is very simple: consider draw (x,y) arc(alpha:beta:r); Now draw a circle of radius r such that (x,y) is at the position specified by the angle alpha, Now TikZ draws an arc from that point to the point with angle beta along that circle.

– marmot
1 hour ago





The logic is very simple: consider draw (x,y) arc(alpha:beta:r); Now draw a circle of radius r such that (x,y) is at the position specified by the angle alpha, Now TikZ draws an arc from that point to the point with angle beta along that circle.

– marmot
1 hour ago




1




1





@marmot Yes, but I have to "update" myself right now

– JouleV
59 mins ago





@marmot Yes, but I have to "update" myself right now

– JouleV
59 mins ago










2 Answers
2






active

oldest

votes


















4














Here is an attempt to use attempt to explain step by step what's going on. I use the non-deprecated syntax, as suggested by Joule V.



documentclass{beamer}
usepackage{tikz}
usetikzlibrary{overlay-beamer-styles}
begin{document}
begin{frame}[t]
frametitle{The arc construction}
textbackslashtexttt{draw (P) arc[start angle=$alpha$,end
angle=$beta$,radius=$r$];}

centering
begin{tikzpicture}
node[circle,fill,inner sep=1pt,label=right:{$P=(x,y)$}] (P){};
draw[dashed,visible on=<2-4>] (P) ++ (210:2) coordinate (O) circle[radius=2cm];
draw[visible on=<2>] (O) + (1,0) arc[start angle=00,end angle=30,radius=1cm]
node[midway,right] {$alpha$};
draw[visible on=<2>] (P) -- (O) -- ++(2,0) node[midway,below]{$r$};
draw[visible on=<3>,thick] (P) arc[start angle=30,end angle=135,radius=2cm]
coordinate (Q);
draw[visible on=<3>] (O) + (1,0) arc[start angle=00,end angle=135,radius=1cm]
node[midway,below] {$beta$} (Q) -- (O) -- ++(2,0) ;
path (O) -- ++ (0,2.5); % only for the bounding box
end{tikzpicture}
begin{itemize}
item<+-> Consider a point $P=(x,y)$.
item<+-> Imagine now a circle of radius $r$ for which $P$ sits at the angle
$alpha$.
item<+-> The arc runs along this circle between the angles $alpha$ and
$beta$;
end{itemize}
end{frame}
end{document}


enter image description here






share|improve this answer


























  • +1, very clear!

    – CarLaTeX
    36 mins ago



















1














Short answer: arc has nothing to do with circle. circle is drawn with four curves, arc is drawn with one curve, that is all.



Let's start with tikz.code.tex. In lines 3673–3706, there is the definition of tikz@do@arc, based on pgfpatharc, which is defined in pgfcorepathconstruct.code.tex. Circles and ellipses are defined in the same way.



In pgfcorepathconstruct.code.tex, pgfpatharc is defined as a curve with a starting point and an ending point, based on pgf@nlt@curveto (line 401).



Meanwhile, you can see that any kind of curves, even circles, are defined based on pgf@nlt@curveto. Circles and ellipses is defined in pgfpathellipse as a set of four connected curves: line 926, line 947, line 968, and line 989 — each of these curves has its own pgf@nlt@curveto.



That is why the arc does not take its coordinate as the center, but a starting point.





share
























    Your Answer








    StackExchange.ready(function() {
    var channelOptions = {
    tags: "".split(" "),
    id: "85"
    };
    initTagRenderer("".split(" "), "".split(" "), channelOptions);

    StackExchange.using("externalEditor", function() {
    // Have to fire editor after snippets, if snippets enabled
    if (StackExchange.settings.snippets.snippetsEnabled) {
    StackExchange.using("snippets", function() {
    createEditor();
    });
    }
    else {
    createEditor();
    }
    });

    function createEditor() {
    StackExchange.prepareEditor({
    heartbeatType: 'answer',
    autoActivateHeartbeat: false,
    convertImagesToLinks: false,
    noModals: true,
    showLowRepImageUploadWarning: true,
    reputationToPostImages: null,
    bindNavPrevention: true,
    postfix: "",
    imageUploader: {
    brandingHtml: "Powered by u003ca class="icon-imgur-white" href="https://imgur.com/"u003eu003c/au003e",
    contentPolicyHtml: "User contributions licensed under u003ca href="https://creativecommons.org/licenses/by-sa/3.0/"u003ecc by-sa 3.0 with attribution requiredu003c/au003e u003ca href="https://stackoverflow.com/legal/content-policy"u003e(content policy)u003c/au003e",
    allowUrls: true
    },
    onDemand: true,
    discardSelector: ".discard-answer"
    ,immediatelyShowMarkdownHelp:true
    });


    }
    });














    draft saved

    draft discarded


















    StackExchange.ready(
    function () {
    StackExchange.openid.initPostLogin('.new-post-login', 'https%3a%2f%2ftex.stackexchange.com%2fquestions%2f485853%2fhow-does-tikz-render-an-arc%23new-answer', 'question_page');
    }
    );

    Post as a guest















    Required, but never shown

























    2 Answers
    2






    active

    oldest

    votes








    2 Answers
    2






    active

    oldest

    votes









    active

    oldest

    votes






    active

    oldest

    votes









    4














    Here is an attempt to use attempt to explain step by step what's going on. I use the non-deprecated syntax, as suggested by Joule V.



    documentclass{beamer}
    usepackage{tikz}
    usetikzlibrary{overlay-beamer-styles}
    begin{document}
    begin{frame}[t]
    frametitle{The arc construction}
    textbackslashtexttt{draw (P) arc[start angle=$alpha$,end
    angle=$beta$,radius=$r$];}

    centering
    begin{tikzpicture}
    node[circle,fill,inner sep=1pt,label=right:{$P=(x,y)$}] (P){};
    draw[dashed,visible on=<2-4>] (P) ++ (210:2) coordinate (O) circle[radius=2cm];
    draw[visible on=<2>] (O) + (1,0) arc[start angle=00,end angle=30,radius=1cm]
    node[midway,right] {$alpha$};
    draw[visible on=<2>] (P) -- (O) -- ++(2,0) node[midway,below]{$r$};
    draw[visible on=<3>,thick] (P) arc[start angle=30,end angle=135,radius=2cm]
    coordinate (Q);
    draw[visible on=<3>] (O) + (1,0) arc[start angle=00,end angle=135,radius=1cm]
    node[midway,below] {$beta$} (Q) -- (O) -- ++(2,0) ;
    path (O) -- ++ (0,2.5); % only for the bounding box
    end{tikzpicture}
    begin{itemize}
    item<+-> Consider a point $P=(x,y)$.
    item<+-> Imagine now a circle of radius $r$ for which $P$ sits at the angle
    $alpha$.
    item<+-> The arc runs along this circle between the angles $alpha$ and
    $beta$;
    end{itemize}
    end{frame}
    end{document}


    enter image description here






    share|improve this answer


























    • +1, very clear!

      – CarLaTeX
      36 mins ago
















    4














    Here is an attempt to use attempt to explain step by step what's going on. I use the non-deprecated syntax, as suggested by Joule V.



    documentclass{beamer}
    usepackage{tikz}
    usetikzlibrary{overlay-beamer-styles}
    begin{document}
    begin{frame}[t]
    frametitle{The arc construction}
    textbackslashtexttt{draw (P) arc[start angle=$alpha$,end
    angle=$beta$,radius=$r$];}

    centering
    begin{tikzpicture}
    node[circle,fill,inner sep=1pt,label=right:{$P=(x,y)$}] (P){};
    draw[dashed,visible on=<2-4>] (P) ++ (210:2) coordinate (O) circle[radius=2cm];
    draw[visible on=<2>] (O) + (1,0) arc[start angle=00,end angle=30,radius=1cm]
    node[midway,right] {$alpha$};
    draw[visible on=<2>] (P) -- (O) -- ++(2,0) node[midway,below]{$r$};
    draw[visible on=<3>,thick] (P) arc[start angle=30,end angle=135,radius=2cm]
    coordinate (Q);
    draw[visible on=<3>] (O) + (1,0) arc[start angle=00,end angle=135,radius=1cm]
    node[midway,below] {$beta$} (Q) -- (O) -- ++(2,0) ;
    path (O) -- ++ (0,2.5); % only for the bounding box
    end{tikzpicture}
    begin{itemize}
    item<+-> Consider a point $P=(x,y)$.
    item<+-> Imagine now a circle of radius $r$ for which $P$ sits at the angle
    $alpha$.
    item<+-> The arc runs along this circle between the angles $alpha$ and
    $beta$;
    end{itemize}
    end{frame}
    end{document}


    enter image description here






    share|improve this answer


























    • +1, very clear!

      – CarLaTeX
      36 mins ago














    4












    4








    4







    Here is an attempt to use attempt to explain step by step what's going on. I use the non-deprecated syntax, as suggested by Joule V.



    documentclass{beamer}
    usepackage{tikz}
    usetikzlibrary{overlay-beamer-styles}
    begin{document}
    begin{frame}[t]
    frametitle{The arc construction}
    textbackslashtexttt{draw (P) arc[start angle=$alpha$,end
    angle=$beta$,radius=$r$];}

    centering
    begin{tikzpicture}
    node[circle,fill,inner sep=1pt,label=right:{$P=(x,y)$}] (P){};
    draw[dashed,visible on=<2-4>] (P) ++ (210:2) coordinate (O) circle[radius=2cm];
    draw[visible on=<2>] (O) + (1,0) arc[start angle=00,end angle=30,radius=1cm]
    node[midway,right] {$alpha$};
    draw[visible on=<2>] (P) -- (O) -- ++(2,0) node[midway,below]{$r$};
    draw[visible on=<3>,thick] (P) arc[start angle=30,end angle=135,radius=2cm]
    coordinate (Q);
    draw[visible on=<3>] (O) + (1,0) arc[start angle=00,end angle=135,radius=1cm]
    node[midway,below] {$beta$} (Q) -- (O) -- ++(2,0) ;
    path (O) -- ++ (0,2.5); % only for the bounding box
    end{tikzpicture}
    begin{itemize}
    item<+-> Consider a point $P=(x,y)$.
    item<+-> Imagine now a circle of radius $r$ for which $P$ sits at the angle
    $alpha$.
    item<+-> The arc runs along this circle between the angles $alpha$ and
    $beta$;
    end{itemize}
    end{frame}
    end{document}


    enter image description here






    share|improve this answer















    Here is an attempt to use attempt to explain step by step what's going on. I use the non-deprecated syntax, as suggested by Joule V.



    documentclass{beamer}
    usepackage{tikz}
    usetikzlibrary{overlay-beamer-styles}
    begin{document}
    begin{frame}[t]
    frametitle{The arc construction}
    textbackslashtexttt{draw (P) arc[start angle=$alpha$,end
    angle=$beta$,radius=$r$];}

    centering
    begin{tikzpicture}
    node[circle,fill,inner sep=1pt,label=right:{$P=(x,y)$}] (P){};
    draw[dashed,visible on=<2-4>] (P) ++ (210:2) coordinate (O) circle[radius=2cm];
    draw[visible on=<2>] (O) + (1,0) arc[start angle=00,end angle=30,radius=1cm]
    node[midway,right] {$alpha$};
    draw[visible on=<2>] (P) -- (O) -- ++(2,0) node[midway,below]{$r$};
    draw[visible on=<3>,thick] (P) arc[start angle=30,end angle=135,radius=2cm]
    coordinate (Q);
    draw[visible on=<3>] (O) + (1,0) arc[start angle=00,end angle=135,radius=1cm]
    node[midway,below] {$beta$} (Q) -- (O) -- ++(2,0) ;
    path (O) -- ++ (0,2.5); % only for the bounding box
    end{tikzpicture}
    begin{itemize}
    item<+-> Consider a point $P=(x,y)$.
    item<+-> Imagine now a circle of radius $r$ for which $P$ sits at the angle
    $alpha$.
    item<+-> The arc runs along this circle between the angles $alpha$ and
    $beta$;
    end{itemize}
    end{frame}
    end{document}


    enter image description here







    share|improve this answer














    share|improve this answer



    share|improve this answer








    edited 35 mins ago

























    answered 38 mins ago









    marmotmarmot

    120k6154290




    120k6154290













    • +1, very clear!

      – CarLaTeX
      36 mins ago



















    • +1, very clear!

      – CarLaTeX
      36 mins ago

















    +1, very clear!

    – CarLaTeX
    36 mins ago





    +1, very clear!

    – CarLaTeX
    36 mins ago











    1














    Short answer: arc has nothing to do with circle. circle is drawn with four curves, arc is drawn with one curve, that is all.



    Let's start with tikz.code.tex. In lines 3673–3706, there is the definition of tikz@do@arc, based on pgfpatharc, which is defined in pgfcorepathconstruct.code.tex. Circles and ellipses are defined in the same way.



    In pgfcorepathconstruct.code.tex, pgfpatharc is defined as a curve with a starting point and an ending point, based on pgf@nlt@curveto (line 401).



    Meanwhile, you can see that any kind of curves, even circles, are defined based on pgf@nlt@curveto. Circles and ellipses is defined in pgfpathellipse as a set of four connected curves: line 926, line 947, line 968, and line 989 — each of these curves has its own pgf@nlt@curveto.



    That is why the arc does not take its coordinate as the center, but a starting point.





    share




























      1














      Short answer: arc has nothing to do with circle. circle is drawn with four curves, arc is drawn with one curve, that is all.



      Let's start with tikz.code.tex. In lines 3673–3706, there is the definition of tikz@do@arc, based on pgfpatharc, which is defined in pgfcorepathconstruct.code.tex. Circles and ellipses are defined in the same way.



      In pgfcorepathconstruct.code.tex, pgfpatharc is defined as a curve with a starting point and an ending point, based on pgf@nlt@curveto (line 401).



      Meanwhile, you can see that any kind of curves, even circles, are defined based on pgf@nlt@curveto. Circles and ellipses is defined in pgfpathellipse as a set of four connected curves: line 926, line 947, line 968, and line 989 — each of these curves has its own pgf@nlt@curveto.



      That is why the arc does not take its coordinate as the center, but a starting point.





      share


























        1












        1








        1







        Short answer: arc has nothing to do with circle. circle is drawn with four curves, arc is drawn with one curve, that is all.



        Let's start with tikz.code.tex. In lines 3673–3706, there is the definition of tikz@do@arc, based on pgfpatharc, which is defined in pgfcorepathconstruct.code.tex. Circles and ellipses are defined in the same way.



        In pgfcorepathconstruct.code.tex, pgfpatharc is defined as a curve with a starting point and an ending point, based on pgf@nlt@curveto (line 401).



        Meanwhile, you can see that any kind of curves, even circles, are defined based on pgf@nlt@curveto. Circles and ellipses is defined in pgfpathellipse as a set of four connected curves: line 926, line 947, line 968, and line 989 — each of these curves has its own pgf@nlt@curveto.



        That is why the arc does not take its coordinate as the center, but a starting point.





        share













        Short answer: arc has nothing to do with circle. circle is drawn with four curves, arc is drawn with one curve, that is all.



        Let's start with tikz.code.tex. In lines 3673–3706, there is the definition of tikz@do@arc, based on pgfpatharc, which is defined in pgfcorepathconstruct.code.tex. Circles and ellipses are defined in the same way.



        In pgfcorepathconstruct.code.tex, pgfpatharc is defined as a curve with a starting point and an ending point, based on pgf@nlt@curveto (line 401).



        Meanwhile, you can see that any kind of curves, even circles, are defined based on pgf@nlt@curveto. Circles and ellipses is defined in pgfpathellipse as a set of four connected curves: line 926, line 947, line 968, and line 989 — each of these curves has its own pgf@nlt@curveto.



        That is why the arc does not take its coordinate as the center, but a starting point.






        share











        share


        share










        answered 7 mins ago









        JouleVJouleV

        14.6k22665




        14.6k22665






























            draft saved

            draft discarded




















































            Thanks for contributing an answer to TeX - LaTeX Stack Exchange!


            • Please be sure to answer the question. Provide details and share your research!

            But avoid



            • Asking for help, clarification, or responding to other answers.

            • Making statements based on opinion; back them up with references or personal experience.


            To learn more, see our tips on writing great answers.




            draft saved


            draft discarded














            StackExchange.ready(
            function () {
            StackExchange.openid.initPostLogin('.new-post-login', 'https%3a%2f%2ftex.stackexchange.com%2fquestions%2f485853%2fhow-does-tikz-render-an-arc%23new-answer', 'question_page');
            }
            );

            Post as a guest















            Required, but never shown





















































            Required, but never shown














            Required, but never shown












            Required, but never shown







            Required, but never shown

































            Required, but never shown














            Required, but never shown












            Required, but never shown







            Required, but never shown







            Popular posts from this blog

            What is the “three and three hundred thousand syndrome”?Who wrote the book Arena?What five creatures were...

            Gersau Kjelder | Navigasjonsmeny46°59′0″N 8°31′0″E46°59′0″N...

            Hestehale Innhaldsliste Hestehale på kvinner | Hestehale på menn | Galleri | Sjå òg |...