problem with creating a graph using tikz
1
I have a little problem. I have create with latex a graph. Here is my code
[
begin{tikzpicture}[->,>=stealth,shorten >=1pt,auto,node distance=2.5cm,
semithick]
tikzset{every state/.append style={fill=red,draw=none,text=white}}
node[state] (A) {${omega}$};
node[state] (B) [below=of A] {$A_{2}(1)$};
node[state] (C) [below=of B] {$A_{1}(1)$};
node[state] (D) [below=of C] {${omega}$};
node[state] (F) [right=of B] {$A_{2}(2)$};
node[state] (E) [above=of F] {${omega}$};
node[state] (G) [below=of F] {$A_{1}(2)$};
node[state] (H) [below=of G] {${omega}$};
node[state] (J) [right=of F] {$A_{2}(m-1)$};
node[state] (I) [above=of J] {${omega}$};
node[state] (K) [below=of J] {$A_{1}(m-1)$};
node[state] (L) [below=of K] {${omega}$};
node[state] (M) [right=of J] {$A_{2}(m)$};
node[state] (N) [right=of K] {$A_{1}(m)$};
node[state] (O) [above=of M] {${omega}$};
node[state] (P) [below=of N] {${omega}$};
path (B) edge node {$mathbf{Q}_{A_{2}{omega}}$} (A)
edge [loop left] node {$QAt$} (B)
edge node {$QAto$} (C)
(C) edge [loop left] node {$QAo$} (C)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (D)
edge [right] node {$QAot$} (F)
(F) edge node {$mathbf{Q}_{A_{2}{omega}}$} (E)
edge [loop left] node {$QAt$} (F)
edge node(aux) {$QAto$} (G)
(G) edge [loop left] node {$QAo$} (G)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (H)
(J) edge node {$mathbf{Q}_{A_{2}{omega}}$} (I)
edge [loop left] node {$QAt$} (J)
edge node {$QAto$} (K)
(K) edge [loop left] node {$QAo$} (K)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (L)
edge [right] node {$QAot$} (M)
(M) edge [loop left] node {$QAt$} (M)
edge node {$QAtw$} (O)
edge node {$QAto$} (N)
(N) edge [loop left] node {$QAo$} (N)
edge node {$QAow + QAotmathbf{1}$} (P);
node[right=2mm of aux,font=bfseriesHuge]{dots};
end{tikzpicture}
]
caption{"Ubergangsgraph von $X$}label{Abbildung3}
end{figure}
where
newcommand{QAt}{mathbf{Q}_{A_{2}A_{2}}}
newcommand{QAo}{mathbf{Q}_{A_{1}A_{1}}}
newcommand{QAot}{mathbf{Q}_{A_{1}A_{2}}}
newcommand{QAto}{mathbf{Q}_{A_{2}A_{1}}}
newcommand{QAtC}{mathbf{Q}_{A_{2}C}}
newcommand{QAtw}{mathbf{Q}_{A_{2}{omega}}}
newcommand{QAow}{mathbf{Q}_{A_{1}{omega}}}
The graph looks as follows
My question is how I can use ovals instead of cirlces, such that the nodes all have the same size. It should look like as follows
tikz-pgf graphs
asked Dec 29 '18 at 22:41
wayne
1377
|
show 5 more comments
1
I have a little problem. I have create with latex a graph. Here is my code
[
begin{tikzpicture}[->,>=stealth,shorten >=1pt,auto,node distance=2.5cm,
semithick]
tikzset{every state/.append style={fill=red,draw=none,text=white}}
node[state] (A) {${omega}$};
node[state] (B) [below=of A] {$A_{2}(1)$};
node[state] (C) [below=of B] {$A_{1}(1)$};
node[state] (D) [below=of C] {${omega}$};
node[state] (F) [right=of B] {$A_{2}(2)$};
node[state] (E) [above=of F] {${omega}$};
node[state] (G) [below=of F] {$A_{1}(2)$};
node[state] (H) [below=of G] {${omega}$};
node[state] (J) [right=of F] {$A_{2}(m-1)$};
node[state] (I) [above=of J] {${omega}$};
node[state] (K) [below=of J] {$A_{1}(m-1)$};
node[state] (L) [below=of K] {${omega}$};
node[state] (M) [right=of J] {$A_{2}(m)$};
node[state] (N) [right=of K] {$A_{1}(m)$};
node[state] (O) [above=of M] {${omega}$};
node[state] (P) [below=of N] {${omega}$};
path (B) edge node {$mathbf{Q}_{A_{2}{omega}}$} (A)
edge [loop left] node {$QAt$} (B)
edge node {$QAto$} (C)
(C) edge [loop left] node {$QAo$} (C)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (D)
edge [right] node {$QAot$} (F)
(F) edge node {$mathbf{Q}_{A_{2}{omega}}$} (E)
edge [loop left] node {$QAt$} (F)
edge node(aux) {$QAto$} (G)
(G) edge [loop left] node {$QAo$} (G)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (H)
(J) edge node {$mathbf{Q}_{A_{2}{omega}}$} (I)
edge [loop left] node {$QAt$} (J)
edge node {$QAto$} (K)
(K) edge [loop left] node {$QAo$} (K)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (L)
edge [right] node {$QAot$} (M)
(M) edge [loop left] node {$QAt$} (M)
edge node {$QAtw$} (O)
edge node {$QAto$} (N)
(N) edge [loop left] node {$QAo$} (N)
edge node {$QAow + QAotmathbf{1}$} (P);
node[right=2mm of aux,font=bfseriesHuge]{dots};
end{tikzpicture}
]
caption{"Ubergangsgraph von $X$}label{Abbildung3}
end{figure}
where
newcommand{QAt}{mathbf{Q}_{A_{2}A_{2}}}
newcommand{QAo}{mathbf{Q}_{A_{1}A_{1}}}
newcommand{QAot}{mathbf{Q}_{A_{1}A_{2}}}
newcommand{QAto}{mathbf{Q}_{A_{2}A_{1}}}
newcommand{QAtC}{mathbf{Q}_{A_{2}C}}
newcommand{QAtw}{mathbf{Q}_{A_{2}{omega}}}
newcommand{QAow}{mathbf{Q}_{A_{1}{omega}}}
The graph looks as follows
My question is how I can use ovals instead of cirlces, such that the nodes all have the same size. It should look like as follows
tikz-pgf graphs
asked Dec 29 '18 at 22:41
wayne
1377
1
Wouldn't this either mean that the font becomes super tiny or you clip away some text? Wouldn't it be better to either change notation (e.g.A_1^{(m-1)}) or to make the other blobs bigger?
– marmot
2 days ago
How can I make the circles to ovals? This would solve it
– wayne
2 days ago
1
Just loadusetikzlibrary{shapes.geometric}and changecircletoellipse.
– marmot
2 days ago
But in my code there is no parameter to use ovals instead of circles
– wayne
2 days ago
2
Well, you do not disclose all information.circleis hidden in the definition ofstate. Trytikzset{every state/.append style={fill=red,draw=none,text=white,ellipse}}.
– marmot
2 days ago
|
show 5 more comments
1
1
1
I have a little problem. I have create with latex a graph. Here is my code
[
begin{tikzpicture}[->,>=stealth,shorten >=1pt,auto,node distance=2.5cm,
semithick]
tikzset{every state/.append style={fill=red,draw=none,text=white}}
node[state] (A) {${omega}$};
node[state] (B) [below=of A] {$A_{2}(1)$};
node[state] (C) [below=of B] {$A_{1}(1)$};
node[state] (D) [below=of C] {${omega}$};
node[state] (F) [right=of B] {$A_{2}(2)$};
node[state] (E) [above=of F] {${omega}$};
node[state] (G) [below=of F] {$A_{1}(2)$};
node[state] (H) [below=of G] {${omega}$};
node[state] (J) [right=of F] {$A_{2}(m-1)$};
node[state] (I) [above=of J] {${omega}$};
node[state] (K) [below=of J] {$A_{1}(m-1)$};
node[state] (L) [below=of K] {${omega}$};
node[state] (M) [right=of J] {$A_{2}(m)$};
node[state] (N) [right=of K] {$A_{1}(m)$};
node[state] (O) [above=of M] {${omega}$};
node[state] (P) [below=of N] {${omega}$};
path (B) edge node {$mathbf{Q}_{A_{2}{omega}}$} (A)
edge [loop left] node {$QAt$} (B)
edge node {$QAto$} (C)
(C) edge [loop left] node {$QAo$} (C)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (D)
edge [right] node {$QAot$} (F)
(F) edge node {$mathbf{Q}_{A_{2}{omega}}$} (E)
edge [loop left] node {$QAt$} (F)
edge node(aux) {$QAto$} (G)
(G) edge [loop left] node {$QAo$} (G)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (H)
(J) edge node {$mathbf{Q}_{A_{2}{omega}}$} (I)
edge [loop left] node {$QAt$} (J)
edge node {$QAto$} (K)
(K) edge [loop left] node {$QAo$} (K)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (L)
edge [right] node {$QAot$} (M)
(M) edge [loop left] node {$QAt$} (M)
edge node {$QAtw$} (O)
edge node {$QAto$} (N)
(N) edge [loop left] node {$QAo$} (N)
edge node {$QAow + QAotmathbf{1}$} (P);
node[right=2mm of aux,font=bfseriesHuge]{dots};
end{tikzpicture}
]
caption{"Ubergangsgraph von $X$}label{Abbildung3}
end{figure}
where
newcommand{QAt}{mathbf{Q}_{A_{2}A_{2}}}
newcommand{QAo}{mathbf{Q}_{A_{1}A_{1}}}
newcommand{QAot}{mathbf{Q}_{A_{1}A_{2}}}
newcommand{QAto}{mathbf{Q}_{A_{2}A_{1}}}
newcommand{QAtC}{mathbf{Q}_{A_{2}C}}
newcommand{QAtw}{mathbf{Q}_{A_{2}{omega}}}
newcommand{QAow}{mathbf{Q}_{A_{1}{omega}}}
The graph looks as follows
My question is how I can use ovals instead of cirlces, such that the nodes all have the same size. It should look like as follows
tikz-pgf graphs
asked Dec 29 '18 at 22:41
wayne
1377
I have a little problem. I have create with latex a graph. Here is my code
[
begin{tikzpicture}[->,>=stealth,shorten >=1pt,auto,node distance=2.5cm,
semithick]
tikzset{every state/.append style={fill=red,draw=none,text=white}}
node[state] (A) {${omega}$};
node[state] (B) [below=of A] {$A_{2}(1)$};
node[state] (C) [below=of B] {$A_{1}(1)$};
node[state] (D) [below=of C] {${omega}$};
node[state] (F) [right=of B] {$A_{2}(2)$};
node[state] (E) [above=of F] {${omega}$};
node[state] (G) [below=of F] {$A_{1}(2)$};
node[state] (H) [below=of G] {${omega}$};
node[state] (J) [right=of F] {$A_{2}(m-1)$};
node[state] (I) [above=of J] {${omega}$};
node[state] (K) [below=of J] {$A_{1}(m-1)$};
node[state] (L) [below=of K] {${omega}$};
node[state] (M) [right=of J] {$A_{2}(m)$};
node[state] (N) [right=of K] {$A_{1}(m)$};
node[state] (O) [above=of M] {${omega}$};
node[state] (P) [below=of N] {${omega}$};
path (B) edge node {$mathbf{Q}_{A_{2}{omega}}$} (A)
edge [loop left] node {$QAt$} (B)
edge node {$QAto$} (C)
(C) edge [loop left] node {$QAo$} (C)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (D)
edge [right] node {$QAot$} (F)
(F) edge node {$mathbf{Q}_{A_{2}{omega}}$} (E)
edge [loop left] node {$QAt$} (F)
edge node(aux) {$QAto$} (G)
(G) edge [loop left] node {$QAo$} (G)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (H)
(J) edge node {$mathbf{Q}_{A_{2}{omega}}$} (I)
edge [loop left] node {$QAt$} (J)
edge node {$QAto$} (K)
(K) edge [loop left] node {$QAo$} (K)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (L)
edge [right] node {$QAot$} (M)
(M) edge [loop left] node {$QAt$} (M)
edge node {$QAtw$} (O)
edge node {$QAto$} (N)
(N) edge [loop left] node {$QAo$} (N)
edge node {$QAow + QAotmathbf{1}$} (P);
node[right=2mm of aux,font=bfseriesHuge]{dots};
end{tikzpicture}
]
caption{"Ubergangsgraph von $X$}label{Abbildung3}
end{figure}
where
newcommand{QAt}{mathbf{Q}_{A_{2}A_{2}}}
newcommand{QAo}{mathbf{Q}_{A_{1}A_{1}}}
newcommand{QAot}{mathbf{Q}_{A_{1}A_{2}}}
newcommand{QAto}{mathbf{Q}_{A_{2}A_{1}}}
newcommand{QAtC}{mathbf{Q}_{A_{2}C}}
newcommand{QAtw}{mathbf{Q}_{A_{2}{omega}}}
newcommand{QAow}{mathbf{Q}_{A_{1}{omega}}}
The graph looks as follows
My question is how I can use ovals instead of cirlces, such that the nodes all have the same size. It should look like as follows
tikz-pgf graphs
tikz-pgf graphs
asked Dec 29 '18 at 22:41
wayne
1377
asked Dec 29 '18 at 22:41
wayne
1377
edited 2 days ago
asked Dec 29 '18 at 22:41
wayne
1377
asked Dec 29 '18 at 22:41
wayne
1377
asked Dec 29 '18 at 22:41
wayne
1377
1377
1
Wouldn't this either mean that the font becomes super tiny or you clip away some text? Wouldn't it be better to either change notation (e.g.A_1^{(m-1)}) or to make the other blobs bigger?
– marmot
2 days ago
How can I make the circles to ovals? This would solve it
– wayne
2 days ago
1
Just loadusetikzlibrary{shapes.geometric}and changecircletoellipse.
– marmot
2 days ago
But in my code there is no parameter to use ovals instead of circles
– wayne
2 days ago
2
Well, you do not disclose all information.circleis hidden in the definition ofstate. Trytikzset{every state/.append style={fill=red,draw=none,text=white,ellipse}}.
– marmot
2 days ago
|
show 5 more comments
1
Wouldn't this either mean that the font becomes super tiny or you clip away some text? Wouldn't it be better to either change notation (e.g.A_1^{(m-1)}) or to make the other blobs bigger?
– marmot
2 days ago
How can I make the circles to ovals? This would solve it
– wayne
2 days ago
1
Just loadusetikzlibrary{shapes.geometric}and changecircletoellipse.
– marmot
2 days ago
But in my code there is no parameter to use ovals instead of circles
– wayne
2 days ago
2
Well, you do not disclose all information.circleis hidden in the definition ofstate. Trytikzset{every state/.append style={fill=red,draw=none,text=white,ellipse}}.
– marmot
2 days ago
1
1
Wouldn't this either mean that the font becomes super tiny or you clip away some text? Wouldn't it be better to either change notation (e.g.
A_1^{(m-1)}) or to make the other blobs bigger?– marmot
2 days ago
Wouldn't this either mean that the font becomes super tiny or you clip away some text? Wouldn't it be better to either change notation (e.g.
A_1^{(m-1)}) or to make the other blobs bigger?– marmot
2 days ago
How can I make the circles to ovals? This would solve it
– wayne
2 days ago
How can I make the circles to ovals? This would solve it
– wayne
2 days ago
1
1
Just load
usetikzlibrary{shapes.geometric} and change circle to ellipse.– marmot
2 days ago
Just load
usetikzlibrary{shapes.geometric} and change circle to ellipse.– marmot
2 days ago
But in my code there is no parameter to use ovals instead of circles
– wayne
2 days ago
But in my code there is no parameter to use ovals instead of circles
– wayne
2 days ago
2
2
Well, you do not disclose all information.
circle is hidden in the definition of state. Try tikzset{every state/.append style={fill=red,draw=none,text=white,ellipse}}.– marmot
2 days ago
Well, you do not disclose all information.
circle is hidden in the definition of state. Try tikzset{every state/.append style={fill=red,draw=none,text=white,ellipse}}.– marmot
2 days ago
|
show 5 more comments
2 Answers
2
active
oldest
votes
2
Too long for a comment. ellipse does work. To decrease the horizontal space, I changed the looseness of the loops, decreased the node distance and stacked the lower right edge label. Note also that the loops increase the bounding box unnecessarily such that I add a bounding box by hand. (With the lower looseness of the loops the problem is less severe.) To make the wider ellipses approximately equal, you could play with inner xsep. Alternatively, you could use makeboxes.
documentclass{article}
usepackage[margin=1in]{geometry}
usepackage{amsmath,amssymb}
usepackage{tikz}
usetikzlibrary{shapes.geometric,automata,positioning}
newcommand{QAt}{mathbf{Q}_{A_{2}A_{2}}}
newcommand{QAo}{mathbf{Q}_{A_{1}A_{1}}}
newcommand{QAot}{mathbf{Q}_{A_{1}A_{2}}}
newcommand{QAto}{mathbf{Q}_{A_{2}A_{1}}}
newcommand{QAtC}{mathbf{Q}_{A_{2}C}}
newcommand{QAtw}{mathbf{Q}_{A_{2}{omega}}}
newcommand{QAow}{mathbf{Q}_{A_{1}{omega}}}
begin{document}
begin{figure}[htb]
centering
begin{tikzpicture}[->,>=stealth,shorten >=1pt,auto,node distance=2cm,
semithick,
every state/.append style={fill=red,draw=none,text=white,ellipse},
every loop/.append style={looseness=5}]
path[use as bounding box] (-2.7,0.45) rectangle (15,-10.65);
pgfmathsetmacro{mywidth}{(width("$A_{2}(m-1)$")-width("$A_{2}(1)$"))/4}
node[state] (A) {${omega}$};
node[state,inner xsep=mywidth] (B) [below=of A] {$A_{2}(1)$};
node[state,inner xsep=mywidth] (C) [below=of B] {$A_{1}(1)$};
node[state] (D) [below=of C] {${omega}$};
node[state,inner xsep=mywidth] (F) [right=of B] {$A_{2}(2)$};
node[state] (E) [above=of F] {${omega}$};
node[state,inner xsep=mywidth] (G) [below=of F] {$A_{1}(2)$};
node[state] (H) [below=of G] {${omega}$};
node[state,inner xsep=-mywidth] (J) [right=of F] {$A_{2}(m-1)$};
node[state] (I) [above=of J] {${omega}$};
node[state,inner xsep=-mywidth] (K) [below=of J] {$A_{1}(m-1)$};
node[state] (L) [below=of K] {${omega}$};
node[state,inner xsep=mywidth] (M) [right=of J] {$A_{2}(m)$};
node[state,inner xsep=mywidth] (N) [right=of K] {$A_{1}(m)$};
node[state] (O) [above=of M] {${omega}$};
node[state] (P) [below=of N] {${omega}$};
path (B) edge node {$mathbf{Q}_{A_{2}{omega}}$} (A)
edge [loop left] node {$QAt$} (B)
edge node {$QAto$} (C)
(C) edge [loop left] node {$QAo$} (C)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (D)
edge [right] node {$QAot$} (F)
(F) edge node {$mathbf{Q}_{A_{2}{omega}}$} (E)
edge [loop left] node {$QAt$} (F)
edge node(aux) {$QAto$} (G)
(G) edge [loop left] node {$QAo$} (G)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (H)
(J) edge node {$mathbf{Q}_{A_{2}{omega}}$} (I)
edge [loop left] node {$QAt$} (J)
edge node {$QAto$} (K)
(K) edge [loop left] node {$QAo$} (K)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (L)
edge [right] node {$QAot$} (M)
(M) edge [loop left] node {$QAt$} (M)
edge node {$QAtw$} (O)
edge node {$QAto$} (N)
(N) edge [loop left] node {$QAo$} (N)
edge node[align=left] {$hphantom{+}QAow$\
$+ QAotmathbf{1}$} (P);
node[right=2mm of aux,font=bfseriesHuge]{dots};
end{tikzpicture}
caption{"Ubergangsgraph von $X$.}label{Abbildung3}
end{figure}
end{document}
answered 2 days ago
marmot
87.6k4101189
but it dont fit on the page. How can you decrease the graph?
– wayne
2 days ago
1
@wayne I added some changes that decrease the width.
– marmot
2 days ago
Thanks! But is there a way to decrease (m-1) such that the corresponding nodes have all the same size like the original picture I have added at the top
– wayne
2 days ago
1
@wayne Sure. There are (at least) two possibilities: either play withinner xsepor usemakeboxes. I added a solution that uses the first option.
– marmot
2 days ago
1
+1: @waybe It would probably be much easier if you would provide a complete example that one can compile. This minimizes iterative guesswork.
– Dr. Manuel Kuehner
2 days ago
|
show 1 more comment
2
mostly off-topic, but it can be helpful:
documentclass[tikz,margin=3.141592]{standalone}
usetikzlibrary{arrows.meta,
chains,
positioning,
quotes,
shapes.geometric}
newcommand{QAt}{mathbf{Q}_{A_{2}A_{2}}}
newcommand{QAo}{mathbf{Q}_{A_{1}A_{1}}}
newcommand{QAot}{mathbf{Q}_{A_{1}A_{2}}}
newcommand{QAto}{mathbf{Q}_{A_{2}A_{1}}}
newcommand{QAtC}{mathbf{Q}_{A_{2}C}}
newcommand{QAtw}{mathbf{Q}_{A_{2}{omega}}}
newcommand{QAow}{mathbf{Q}_{A_{1}{omega}}}
begin{document}
begin{tikzpicture}[auto,
% scale=0.8,
% transform shape,
node distance = 15mm and 35mm, on grid,
start chain = going below,
state/.style = {ellipse, minimum height=7mm, inner xsep=0pt,
fill=red, text=white,
on chain},
every edge/.append style = {draw,-Stealth},
every loop/.append style = {looseness=4}
]
begin{scope}[every node/.style = {state}]
node (A) {${omega}$};
node (B) {$A_{2}(1)$};
node (C) {$A_{1}(1)$};
node (D) {${omega}$};
%
node (E) [right=of A] {${omega}$};
node (F) {$A_{2}(2)$};
node (G) {$A_{1}(2)$};
node (H) {${omega}$};
%
node (I) [right=of E] {${omega}$};
node (J) {$A_{2}(m{-}1)$};
node (K) {$A_{1}(m{-}1)$};
node (L) {${omega}$};
%
node (M) [right=of I] {${omega}$};
node (N) {$A_{2}(m)$};
node (O) {$A_{1}(m)$};
node (P) {${omega}$};
end{scope}
%
path (B) edge ["$mathbf{Q}_{A_{2}{omega}}$"] (A)
edge [loop left,"$QAt$"] (B)
edge ["$QAto$"] (C)
(C) edge [loop left,"$QAo$"] (C)
edge ["$mathbf{Q}_{A_{1}{omega}}$"] (D)
edge ["$QAot$" '] (F)
(F) edge ["$mathbf{Q}_{A_{2}{omega}}$"] (E)
edge [loop left,"$QAt$"] (F)
edge node (aux) {$QAto$} (G)
(G) edge [loop left,"$QAo$"] (G)
edge ["$mathbf{Q}_{A_{1}{omega}}$"] (H)
(J) edge ["$mathbf{Q}_{A_{2}{omega}}$"] (I)
edge [loop left,,"$QAt$"] (J)
edge ["$QAto$"] (K)
(K) edge [loop left,"$QAo$"] (K)
edge ["$mathbf{Q}_{A_{1}{omega}}$"] (L)
edge ["$QAot$" '] (N)
(M) edge [loop left,"$QAt$"] (M)
edge ["$QAtw$"] (N)
(N) edge ["$QAto$"] (O)
(O) edge [loop left,"$QAo$"] (O)
edge ["$QAow + QAotmathbf{1}$"] (P);
draw[ultra thick,loosely dotted,shorten <=2mm] (aux) -- + (1.5,0);
end{tikzpicture}
end{document}
i don't know, if this image isn't wide than textwidth since the page layout of your document is unknown. however, you can adjust image width with uncomment lines with scale=... and transform shape and adjust image size accordingly :-)
answered 2 days ago
Zarko
121k865156
add a comment |
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2
Too long for a comment. ellipse does work. To decrease the horizontal space, I changed the looseness of the loops, decreased the node distance and stacked the lower right edge label. Note also that the loops increase the bounding box unnecessarily such that I add a bounding box by hand. (With the lower looseness of the loops the problem is less severe.) To make the wider ellipses approximately equal, you could play with inner xsep. Alternatively, you could use makeboxes.
documentclass{article}
usepackage[margin=1in]{geometry}
usepackage{amsmath,amssymb}
usepackage{tikz}
usetikzlibrary{shapes.geometric,automata,positioning}
newcommand{QAt}{mathbf{Q}_{A_{2}A_{2}}}
newcommand{QAo}{mathbf{Q}_{A_{1}A_{1}}}
newcommand{QAot}{mathbf{Q}_{A_{1}A_{2}}}
newcommand{QAto}{mathbf{Q}_{A_{2}A_{1}}}
newcommand{QAtC}{mathbf{Q}_{A_{2}C}}
newcommand{QAtw}{mathbf{Q}_{A_{2}{omega}}}
newcommand{QAow}{mathbf{Q}_{A_{1}{omega}}}
begin{document}
begin{figure}[htb]
centering
begin{tikzpicture}[->,>=stealth,shorten >=1pt,auto,node distance=2cm,
semithick,
every state/.append style={fill=red,draw=none,text=white,ellipse},
every loop/.append style={looseness=5}]
path[use as bounding box] (-2.7,0.45) rectangle (15,-10.65);
pgfmathsetmacro{mywidth}{(width("$A_{2}(m-1)$")-width("$A_{2}(1)$"))/4}
node[state] (A) {${omega}$};
node[state,inner xsep=mywidth] (B) [below=of A] {$A_{2}(1)$};
node[state,inner xsep=mywidth] (C) [below=of B] {$A_{1}(1)$};
node[state] (D) [below=of C] {${omega}$};
node[state,inner xsep=mywidth] (F) [right=of B] {$A_{2}(2)$};
node[state] (E) [above=of F] {${omega}$};
node[state,inner xsep=mywidth] (G) [below=of F] {$A_{1}(2)$};
node[state] (H) [below=of G] {${omega}$};
node[state,inner xsep=-mywidth] (J) [right=of F] {$A_{2}(m-1)$};
node[state] (I) [above=of J] {${omega}$};
node[state,inner xsep=-mywidth] (K) [below=of J] {$A_{1}(m-1)$};
node[state] (L) [below=of K] {${omega}$};
node[state,inner xsep=mywidth] (M) [right=of J] {$A_{2}(m)$};
node[state,inner xsep=mywidth] (N) [right=of K] {$A_{1}(m)$};
node[state] (O) [above=of M] {${omega}$};
node[state] (P) [below=of N] {${omega}$};
path (B) edge node {$mathbf{Q}_{A_{2}{omega}}$} (A)
edge [loop left] node {$QAt$} (B)
edge node {$QAto$} (C)
(C) edge [loop left] node {$QAo$} (C)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (D)
edge [right] node {$QAot$} (F)
(F) edge node {$mathbf{Q}_{A_{2}{omega}}$} (E)
edge [loop left] node {$QAt$} (F)
edge node(aux) {$QAto$} (G)
(G) edge [loop left] node {$QAo$} (G)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (H)
(J) edge node {$mathbf{Q}_{A_{2}{omega}}$} (I)
edge [loop left] node {$QAt$} (J)
edge node {$QAto$} (K)
(K) edge [loop left] node {$QAo$} (K)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (L)
edge [right] node {$QAot$} (M)
(M) edge [loop left] node {$QAt$} (M)
edge node {$QAtw$} (O)
edge node {$QAto$} (N)
(N) edge [loop left] node {$QAo$} (N)
edge node[align=left] {$hphantom{+}QAow$\
$+ QAotmathbf{1}$} (P);
node[right=2mm of aux,font=bfseriesHuge]{dots};
end{tikzpicture}
caption{"Ubergangsgraph von $X$.}label{Abbildung3}
end{figure}
end{document}
answered 2 days ago
marmot
87.6k4101189
but it dont fit on the page. How can you decrease the graph?
– wayne
2 days ago
1
@wayne I added some changes that decrease the width.
– marmot
2 days ago
Thanks! But is there a way to decrease (m-1) such that the corresponding nodes have all the same size like the original picture I have added at the top
– wayne
2 days ago
1
@wayne Sure. There are (at least) two possibilities: either play withinner xsepor usemakeboxes. I added a solution that uses the first option.
– marmot
2 days ago
1
+1: @waybe It would probably be much easier if you would provide a complete example that one can compile. This minimizes iterative guesswork.
– Dr. Manuel Kuehner
2 days ago
|
show 1 more comment
2
Too long for a comment. ellipse does work. To decrease the horizontal space, I changed the looseness of the loops, decreased the node distance and stacked the lower right edge label. Note also that the loops increase the bounding box unnecessarily such that I add a bounding box by hand. (With the lower looseness of the loops the problem is less severe.) To make the wider ellipses approximately equal, you could play with inner xsep. Alternatively, you could use makeboxes.
documentclass{article}
usepackage[margin=1in]{geometry}
usepackage{amsmath,amssymb}
usepackage{tikz}
usetikzlibrary{shapes.geometric,automata,positioning}
newcommand{QAt}{mathbf{Q}_{A_{2}A_{2}}}
newcommand{QAo}{mathbf{Q}_{A_{1}A_{1}}}
newcommand{QAot}{mathbf{Q}_{A_{1}A_{2}}}
newcommand{QAto}{mathbf{Q}_{A_{2}A_{1}}}
newcommand{QAtC}{mathbf{Q}_{A_{2}C}}
newcommand{QAtw}{mathbf{Q}_{A_{2}{omega}}}
newcommand{QAow}{mathbf{Q}_{A_{1}{omega}}}
begin{document}
begin{figure}[htb]
centering
begin{tikzpicture}[->,>=stealth,shorten >=1pt,auto,node distance=2cm,
semithick,
every state/.append style={fill=red,draw=none,text=white,ellipse},
every loop/.append style={looseness=5}]
path[use as bounding box] (-2.7,0.45) rectangle (15,-10.65);
pgfmathsetmacro{mywidth}{(width("$A_{2}(m-1)$")-width("$A_{2}(1)$"))/4}
node[state] (A) {${omega}$};
node[state,inner xsep=mywidth] (B) [below=of A] {$A_{2}(1)$};
node[state,inner xsep=mywidth] (C) [below=of B] {$A_{1}(1)$};
node[state] (D) [below=of C] {${omega}$};
node[state,inner xsep=mywidth] (F) [right=of B] {$A_{2}(2)$};
node[state] (E) [above=of F] {${omega}$};
node[state,inner xsep=mywidth] (G) [below=of F] {$A_{1}(2)$};
node[state] (H) [below=of G] {${omega}$};
node[state,inner xsep=-mywidth] (J) [right=of F] {$A_{2}(m-1)$};
node[state] (I) [above=of J] {${omega}$};
node[state,inner xsep=-mywidth] (K) [below=of J] {$A_{1}(m-1)$};
node[state] (L) [below=of K] {${omega}$};
node[state,inner xsep=mywidth] (M) [right=of J] {$A_{2}(m)$};
node[state,inner xsep=mywidth] (N) [right=of K] {$A_{1}(m)$};
node[state] (O) [above=of M] {${omega}$};
node[state] (P) [below=of N] {${omega}$};
path (B) edge node {$mathbf{Q}_{A_{2}{omega}}$} (A)
edge [loop left] node {$QAt$} (B)
edge node {$QAto$} (C)
(C) edge [loop left] node {$QAo$} (C)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (D)
edge [right] node {$QAot$} (F)
(F) edge node {$mathbf{Q}_{A_{2}{omega}}$} (E)
edge [loop left] node {$QAt$} (F)
edge node(aux) {$QAto$} (G)
(G) edge [loop left] node {$QAo$} (G)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (H)
(J) edge node {$mathbf{Q}_{A_{2}{omega}}$} (I)
edge [loop left] node {$QAt$} (J)
edge node {$QAto$} (K)
(K) edge [loop left] node {$QAo$} (K)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (L)
edge [right] node {$QAot$} (M)
(M) edge [loop left] node {$QAt$} (M)
edge node {$QAtw$} (O)
edge node {$QAto$} (N)
(N) edge [loop left] node {$QAo$} (N)
edge node[align=left] {$hphantom{+}QAow$\
$+ QAotmathbf{1}$} (P);
node[right=2mm of aux,font=bfseriesHuge]{dots};
end{tikzpicture}
caption{"Ubergangsgraph von $X$.}label{Abbildung3}
end{figure}
end{document}
answered 2 days ago
marmot
87.6k4101189
but it dont fit on the page. How can you decrease the graph?
– wayne
2 days ago
1
@wayne I added some changes that decrease the width.
– marmot
2 days ago
Thanks! But is there a way to decrease (m-1) such that the corresponding nodes have all the same size like the original picture I have added at the top
– wayne
2 days ago
1
@wayne Sure. There are (at least) two possibilities: either play withinner xsepor usemakeboxes. I added a solution that uses the first option.
– marmot
2 days ago
1
+1: @waybe It would probably be much easier if you would provide a complete example that one can compile. This minimizes iterative guesswork.
– Dr. Manuel Kuehner
2 days ago
|
show 1 more comment
2
2
2
Too long for a comment. ellipse does work. To decrease the horizontal space, I changed the looseness of the loops, decreased the node distance and stacked the lower right edge label. Note also that the loops increase the bounding box unnecessarily such that I add a bounding box by hand. (With the lower looseness of the loops the problem is less severe.) To make the wider ellipses approximately equal, you could play with inner xsep. Alternatively, you could use makeboxes.
documentclass{article}
usepackage[margin=1in]{geometry}
usepackage{amsmath,amssymb}
usepackage{tikz}
usetikzlibrary{shapes.geometric,automata,positioning}
newcommand{QAt}{mathbf{Q}_{A_{2}A_{2}}}
newcommand{QAo}{mathbf{Q}_{A_{1}A_{1}}}
newcommand{QAot}{mathbf{Q}_{A_{1}A_{2}}}
newcommand{QAto}{mathbf{Q}_{A_{2}A_{1}}}
newcommand{QAtC}{mathbf{Q}_{A_{2}C}}
newcommand{QAtw}{mathbf{Q}_{A_{2}{omega}}}
newcommand{QAow}{mathbf{Q}_{A_{1}{omega}}}
begin{document}
begin{figure}[htb]
centering
begin{tikzpicture}[->,>=stealth,shorten >=1pt,auto,node distance=2cm,
semithick,
every state/.append style={fill=red,draw=none,text=white,ellipse},
every loop/.append style={looseness=5}]
path[use as bounding box] (-2.7,0.45) rectangle (15,-10.65);
pgfmathsetmacro{mywidth}{(width("$A_{2}(m-1)$")-width("$A_{2}(1)$"))/4}
node[state] (A) {${omega}$};
node[state,inner xsep=mywidth] (B) [below=of A] {$A_{2}(1)$};
node[state,inner xsep=mywidth] (C) [below=of B] {$A_{1}(1)$};
node[state] (D) [below=of C] {${omega}$};
node[state,inner xsep=mywidth] (F) [right=of B] {$A_{2}(2)$};
node[state] (E) [above=of F] {${omega}$};
node[state,inner xsep=mywidth] (G) [below=of F] {$A_{1}(2)$};
node[state] (H) [below=of G] {${omega}$};
node[state,inner xsep=-mywidth] (J) [right=of F] {$A_{2}(m-1)$};
node[state] (I) [above=of J] {${omega}$};
node[state,inner xsep=-mywidth] (K) [below=of J] {$A_{1}(m-1)$};
node[state] (L) [below=of K] {${omega}$};
node[state,inner xsep=mywidth] (M) [right=of J] {$A_{2}(m)$};
node[state,inner xsep=mywidth] (N) [right=of K] {$A_{1}(m)$};
node[state] (O) [above=of M] {${omega}$};
node[state] (P) [below=of N] {${omega}$};
path (B) edge node {$mathbf{Q}_{A_{2}{omega}}$} (A)
edge [loop left] node {$QAt$} (B)
edge node {$QAto$} (C)
(C) edge [loop left] node {$QAo$} (C)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (D)
edge [right] node {$QAot$} (F)
(F) edge node {$mathbf{Q}_{A_{2}{omega}}$} (E)
edge [loop left] node {$QAt$} (F)
edge node(aux) {$QAto$} (G)
(G) edge [loop left] node {$QAo$} (G)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (H)
(J) edge node {$mathbf{Q}_{A_{2}{omega}}$} (I)
edge [loop left] node {$QAt$} (J)
edge node {$QAto$} (K)
(K) edge [loop left] node {$QAo$} (K)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (L)
edge [right] node {$QAot$} (M)
(M) edge [loop left] node {$QAt$} (M)
edge node {$QAtw$} (O)
edge node {$QAto$} (N)
(N) edge [loop left] node {$QAo$} (N)
edge node[align=left] {$hphantom{+}QAow$\
$+ QAotmathbf{1}$} (P);
node[right=2mm of aux,font=bfseriesHuge]{dots};
end{tikzpicture}
caption{"Ubergangsgraph von $X$.}label{Abbildung3}
end{figure}
end{document}
answered 2 days ago
marmot
87.6k4101189
Too long for a comment. ellipse does work. To decrease the horizontal space, I changed the looseness of the loops, decreased the node distance and stacked the lower right edge label. Note also that the loops increase the bounding box unnecessarily such that I add a bounding box by hand. (With the lower looseness of the loops the problem is less severe.) To make the wider ellipses approximately equal, you could play with inner xsep. Alternatively, you could use makeboxes.
documentclass{article}
usepackage[margin=1in]{geometry}
usepackage{amsmath,amssymb}
usepackage{tikz}
usetikzlibrary{shapes.geometric,automata,positioning}
newcommand{QAt}{mathbf{Q}_{A_{2}A_{2}}}
newcommand{QAo}{mathbf{Q}_{A_{1}A_{1}}}
newcommand{QAot}{mathbf{Q}_{A_{1}A_{2}}}
newcommand{QAto}{mathbf{Q}_{A_{2}A_{1}}}
newcommand{QAtC}{mathbf{Q}_{A_{2}C}}
newcommand{QAtw}{mathbf{Q}_{A_{2}{omega}}}
newcommand{QAow}{mathbf{Q}_{A_{1}{omega}}}
begin{document}
begin{figure}[htb]
centering
begin{tikzpicture}[->,>=stealth,shorten >=1pt,auto,node distance=2cm,
semithick,
every state/.append style={fill=red,draw=none,text=white,ellipse},
every loop/.append style={looseness=5}]
path[use as bounding box] (-2.7,0.45) rectangle (15,-10.65);
pgfmathsetmacro{mywidth}{(width("$A_{2}(m-1)$")-width("$A_{2}(1)$"))/4}
node[state] (A) {${omega}$};
node[state,inner xsep=mywidth] (B) [below=of A] {$A_{2}(1)$};
node[state,inner xsep=mywidth] (C) [below=of B] {$A_{1}(1)$};
node[state] (D) [below=of C] {${omega}$};
node[state,inner xsep=mywidth] (F) [right=of B] {$A_{2}(2)$};
node[state] (E) [above=of F] {${omega}$};
node[state,inner xsep=mywidth] (G) [below=of F] {$A_{1}(2)$};
node[state] (H) [below=of G] {${omega}$};
node[state,inner xsep=-mywidth] (J) [right=of F] {$A_{2}(m-1)$};
node[state] (I) [above=of J] {${omega}$};
node[state,inner xsep=-mywidth] (K) [below=of J] {$A_{1}(m-1)$};
node[state] (L) [below=of K] {${omega}$};
node[state,inner xsep=mywidth] (M) [right=of J] {$A_{2}(m)$};
node[state,inner xsep=mywidth] (N) [right=of K] {$A_{1}(m)$};
node[state] (O) [above=of M] {${omega}$};
node[state] (P) [below=of N] {${omega}$};
path (B) edge node {$mathbf{Q}_{A_{2}{omega}}$} (A)
edge [loop left] node {$QAt$} (B)
edge node {$QAto$} (C)
(C) edge [loop left] node {$QAo$} (C)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (D)
edge [right] node {$QAot$} (F)
(F) edge node {$mathbf{Q}_{A_{2}{omega}}$} (E)
edge [loop left] node {$QAt$} (F)
edge node(aux) {$QAto$} (G)
(G) edge [loop left] node {$QAo$} (G)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (H)
(J) edge node {$mathbf{Q}_{A_{2}{omega}}$} (I)
edge [loop left] node {$QAt$} (J)
edge node {$QAto$} (K)
(K) edge [loop left] node {$QAo$} (K)
edge node {$mathbf{Q}_{A_{1}{omega}}$} (L)
edge [right] node {$QAot$} (M)
(M) edge [loop left] node {$QAt$} (M)
edge node {$QAtw$} (O)
edge node {$QAto$} (N)
(N) edge [loop left] node {$QAo$} (N)
edge node[align=left] {$hphantom{+}QAow$\
$+ QAotmathbf{1}$} (P);
node[right=2mm of aux,font=bfseriesHuge]{dots};
end{tikzpicture}
caption{"Ubergangsgraph von $X$.}label{Abbildung3}
end{figure}
end{document}
answered 2 days ago
marmot
87.6k4101189
edited 2 days ago
answered 2 days ago
marmot
87.6k4101189
answered 2 days ago
marmot
87.6k4101189
answered 2 days ago
marmot
87.6k4101189
87.6k4101189
but it dont fit on the page. How can you decrease the graph?
– wayne
2 days ago
1
@wayne I added some changes that decrease the width.
– marmot
2 days ago
Thanks! But is there a way to decrease (m-1) such that the corresponding nodes have all the same size like the original picture I have added at the top
– wayne
2 days ago
1
@wayne Sure. There are (at least) two possibilities: either play withinner xsepor usemakeboxes. I added a solution that uses the first option.
– marmot
2 days ago
1
+1: @waybe It would probably be much easier if you would provide a complete example that one can compile. This minimizes iterative guesswork.
– Dr. Manuel Kuehner
2 days ago
|
show 1 more comment
but it dont fit on the page. How can you decrease the graph?
– wayne
2 days ago
1
@wayne I added some changes that decrease the width.
– marmot
2 days ago
Thanks! But is there a way to decrease (m-1) such that the corresponding nodes have all the same size like the original picture I have added at the top
– wayne
2 days ago
1
@wayne Sure. There are (at least) two possibilities: either play withinner xsepor usemakeboxes. I added a solution that uses the first option.
– marmot
2 days ago
1
+1: @waybe It would probably be much easier if you would provide a complete example that one can compile. This minimizes iterative guesswork.
– Dr. Manuel Kuehner
2 days ago
but it dont fit on the page. How can you decrease the graph?
– wayne
2 days ago
but it dont fit on the page. How can you decrease the graph?
– wayne
2 days ago
1
1
@wayne I added some changes that decrease the width.
– marmot
2 days ago
@wayne I added some changes that decrease the width.
– marmot
2 days ago
Thanks! But is there a way to decrease (m-1) such that the corresponding nodes have all the same size like the original picture I have added at the top
– wayne
2 days ago
Thanks! But is there a way to decrease (m-1) such that the corresponding nodes have all the same size like the original picture I have added at the top
– wayne
2 days ago
1
1
@wayne Sure. There are (at least) two possibilities: either play with
inner xsep or use makeboxes. I added a solution that uses the first option.– marmot
2 days ago
@wayne Sure. There are (at least) two possibilities: either play with
inner xsep or use makeboxes. I added a solution that uses the first option.– marmot
2 days ago
1
1
+1: @waybe It would probably be much easier if you would provide a complete example that one can compile. This minimizes iterative guesswork.
– Dr. Manuel Kuehner
2 days ago
+1: @waybe It would probably be much easier if you would provide a complete example that one can compile. This minimizes iterative guesswork.
– Dr. Manuel Kuehner
2 days ago
|
show 1 more comment
2
mostly off-topic, but it can be helpful:
documentclass[tikz,margin=3.141592]{standalone}
usetikzlibrary{arrows.meta,
chains,
positioning,
quotes,
shapes.geometric}
newcommand{QAt}{mathbf{Q}_{A_{2}A_{2}}}
newcommand{QAo}{mathbf{Q}_{A_{1}A_{1}}}
newcommand{QAot}{mathbf{Q}_{A_{1}A_{2}}}
newcommand{QAto}{mathbf{Q}_{A_{2}A_{1}}}
newcommand{QAtC}{mathbf{Q}_{A_{2}C}}
newcommand{QAtw}{mathbf{Q}_{A_{2}{omega}}}
newcommand{QAow}{mathbf{Q}_{A_{1}{omega}}}
begin{document}
begin{tikzpicture}[auto,
% scale=0.8,
% transform shape,
node distance = 15mm and 35mm, on grid,
start chain = going below,
state/.style = {ellipse, minimum height=7mm, inner xsep=0pt,
fill=red, text=white,
on chain},
every edge/.append style = {draw,-Stealth},
every loop/.append style = {looseness=4}
]
begin{scope}[every node/.style = {state}]
node (A) {${omega}$};
node (B) {$A_{2}(1)$};
node (C) {$A_{1}(1)$};
node (D) {${omega}$};
%
node (E) [right=of A] {${omega}$};
node (F) {$A_{2}(2)$};
node (G) {$A_{1}(2)$};
node (H) {${omega}$};
%
node (I) [right=of E] {${omega}$};
node (J) {$A_{2}(m{-}1)$};
node (K) {$A_{1}(m{-}1)$};
node (L) {${omega}$};
%
node (M) [right=of I] {${omega}$};
node (N) {$A_{2}(m)$};
node (O) {$A_{1}(m)$};
node (P) {${omega}$};
end{scope}
%
path (B) edge ["$mathbf{Q}_{A_{2}{omega}}$"] (A)
edge [loop left,"$QAt$"] (B)
edge ["$QAto$"] (C)
(C) edge [loop left,"$QAo$"] (C)
edge ["$mathbf{Q}_{A_{1}{omega}}$"] (D)
edge ["$QAot$" '] (F)
(F) edge ["$mathbf{Q}_{A_{2}{omega}}$"] (E)
edge [loop left,"$QAt$"] (F)
edge node (aux) {$QAto$} (G)
(G) edge [loop left,"$QAo$"] (G)
edge ["$mathbf{Q}_{A_{1}{omega}}$"] (H)
(J) edge ["$mathbf{Q}_{A_{2}{omega}}$"] (I)
edge [loop left,,"$QAt$"] (J)
edge ["$QAto$"] (K)
(K) edge [loop left,"$QAo$"] (K)
edge ["$mathbf{Q}_{A_{1}{omega}}$"] (L)
edge ["$QAot$" '] (N)
(M) edge [loop left,"$QAt$"] (M)
edge ["$QAtw$"] (N)
(N) edge ["$QAto$"] (O)
(O) edge [loop left,"$QAo$"] (O)
edge ["$QAow + QAotmathbf{1}$"] (P);
draw[ultra thick,loosely dotted,shorten <=2mm] (aux) -- + (1.5,0);
end{tikzpicture}
end{document}
i don't know, if this image isn't wide than textwidth since the page layout of your document is unknown. however, you can adjust image width with uncomment lines with scale=... and transform shape and adjust image size accordingly :-)
answered 2 days ago
Zarko
121k865156
add a comment |
2
mostly off-topic, but it can be helpful:
documentclass[tikz,margin=3.141592]{standalone}
usetikzlibrary{arrows.meta,
chains,
positioning,
quotes,
shapes.geometric}
newcommand{QAt}{mathbf{Q}_{A_{2}A_{2}}}
newcommand{QAo}{mathbf{Q}_{A_{1}A_{1}}}
newcommand{QAot}{mathbf{Q}_{A_{1}A_{2}}}
newcommand{QAto}{mathbf{Q}_{A_{2}A_{1}}}
newcommand{QAtC}{mathbf{Q}_{A_{2}C}}
newcommand{QAtw}{mathbf{Q}_{A_{2}{omega}}}
newcommand{QAow}{mathbf{Q}_{A_{1}{omega}}}
begin{document}
begin{tikzpicture}[auto,
% scale=0.8,
% transform shape,
node distance = 15mm and 35mm, on grid,
start chain = going below,
state/.style = {ellipse, minimum height=7mm, inner xsep=0pt,
fill=red, text=white,
on chain},
every edge/.append style = {draw,-Stealth},
every loop/.append style = {looseness=4}
]
begin{scope}[every node/.style = {state}]
node (A) {${omega}$};
node (B) {$A_{2}(1)$};
node (C) {$A_{1}(1)$};
node (D) {${omega}$};
%
node (E) [right=of A] {${omega}$};
node (F) {$A_{2}(2)$};
node (G) {$A_{1}(2)$};
node (H) {${omega}$};
%
node (I) [right=of E] {${omega}$};
node (J) {$A_{2}(m{-}1)$};
node (K) {$A_{1}(m{-}1)$};
node (L) {${omega}$};
%
node (M) [right=of I] {${omega}$};
node (N) {$A_{2}(m)$};
node (O) {$A_{1}(m)$};
node (P) {${omega}$};
end{scope}
%
path (B) edge ["$mathbf{Q}_{A_{2}{omega}}$"] (A)
edge [loop left,"$QAt$"] (B)
edge ["$QAto$"] (C)
(C) edge [loop left,"$QAo$"] (C)
edge ["$mathbf{Q}_{A_{1}{omega}}$"] (D)
edge ["$QAot$" '] (F)
(F) edge ["$mathbf{Q}_{A_{2}{omega}}$"] (E)
edge [loop left,"$QAt$"] (F)
edge node (aux) {$QAto$} (G)
(G) edge [loop left,"$QAo$"] (G)
edge ["$mathbf{Q}_{A_{1}{omega}}$"] (H)
(J) edge ["$mathbf{Q}_{A_{2}{omega}}$"] (I)
edge [loop left,,"$QAt$"] (J)
edge ["$QAto$"] (K)
(K) edge [loop left,"$QAo$"] (K)
edge ["$mathbf{Q}_{A_{1}{omega}}$"] (L)
edge ["$QAot$" '] (N)
(M) edge [loop left,"$QAt$"] (M)
edge ["$QAtw$"] (N)
(N) edge ["$QAto$"] (O)
(O) edge [loop left,"$QAo$"] (O)
edge ["$QAow + QAotmathbf{1}$"] (P);
draw[ultra thick,loosely dotted,shorten <=2mm] (aux) -- + (1.5,0);
end{tikzpicture}
end{document}
i don't know, if this image isn't wide than textwidth since the page layout of your document is unknown. however, you can adjust image width with uncomment lines with scale=... and transform shape and adjust image size accordingly :-)
answered 2 days ago
Zarko
121k865156
add a comment |
2
2
2
mostly off-topic, but it can be helpful:
documentclass[tikz,margin=3.141592]{standalone}
usetikzlibrary{arrows.meta,
chains,
positioning,
quotes,
shapes.geometric}
newcommand{QAt}{mathbf{Q}_{A_{2}A_{2}}}
newcommand{QAo}{mathbf{Q}_{A_{1}A_{1}}}
newcommand{QAot}{mathbf{Q}_{A_{1}A_{2}}}
newcommand{QAto}{mathbf{Q}_{A_{2}A_{1}}}
newcommand{QAtC}{mathbf{Q}_{A_{2}C}}
newcommand{QAtw}{mathbf{Q}_{A_{2}{omega}}}
newcommand{QAow}{mathbf{Q}_{A_{1}{omega}}}
begin{document}
begin{tikzpicture}[auto,
% scale=0.8,
% transform shape,
node distance = 15mm and 35mm, on grid,
start chain = going below,
state/.style = {ellipse, minimum height=7mm, inner xsep=0pt,
fill=red, text=white,
on chain},
every edge/.append style = {draw,-Stealth},
every loop/.append style = {looseness=4}
]
begin{scope}[every node/.style = {state}]
node (A) {${omega}$};
node (B) {$A_{2}(1)$};
node (C) {$A_{1}(1)$};
node (D) {${omega}$};
%
node (E) [right=of A] {${omega}$};
node (F) {$A_{2}(2)$};
node (G) {$A_{1}(2)$};
node (H) {${omega}$};
%
node (I) [right=of E] {${omega}$};
node (J) {$A_{2}(m{-}1)$};
node (K) {$A_{1}(m{-}1)$};
node (L) {${omega}$};
%
node (M) [right=of I] {${omega}$};
node (N) {$A_{2}(m)$};
node (O) {$A_{1}(m)$};
node (P) {${omega}$};
end{scope}
%
path (B) edge ["$mathbf{Q}_{A_{2}{omega}}$"] (A)
edge [loop left,"$QAt$"] (B)
edge ["$QAto$"] (C)
(C) edge [loop left,"$QAo$"] (C)
edge ["$mathbf{Q}_{A_{1}{omega}}$"] (D)
edge ["$QAot$" '] (F)
(F) edge ["$mathbf{Q}_{A_{2}{omega}}$"] (E)
edge [loop left,"$QAt$"] (F)
edge node (aux) {$QAto$} (G)
(G) edge [loop left,"$QAo$"] (G)
edge ["$mathbf{Q}_{A_{1}{omega}}$"] (H)
(J) edge ["$mathbf{Q}_{A_{2}{omega}}$"] (I)
edge [loop left,,"$QAt$"] (J)
edge ["$QAto$"] (K)
(K) edge [loop left,"$QAo$"] (K)
edge ["$mathbf{Q}_{A_{1}{omega}}$"] (L)
edge ["$QAot$" '] (N)
(M) edge [loop left,"$QAt$"] (M)
edge ["$QAtw$"] (N)
(N) edge ["$QAto$"] (O)
(O) edge [loop left,"$QAo$"] (O)
edge ["$QAow + QAotmathbf{1}$"] (P);
draw[ultra thick,loosely dotted,shorten <=2mm] (aux) -- + (1.5,0);
end{tikzpicture}
end{document}
i don't know, if this image isn't wide than textwidth since the page layout of your document is unknown. however, you can adjust image width with uncomment lines with scale=... and transform shape and adjust image size accordingly :-)
answered 2 days ago
Zarko
121k865156
mostly off-topic, but it can be helpful:
documentclass[tikz,margin=3.141592]{standalone}
usetikzlibrary{arrows.meta,
chains,
positioning,
quotes,
shapes.geometric}
newcommand{QAt}{mathbf{Q}_{A_{2}A_{2}}}
newcommand{QAo}{mathbf{Q}_{A_{1}A_{1}}}
newcommand{QAot}{mathbf{Q}_{A_{1}A_{2}}}
newcommand{QAto}{mathbf{Q}_{A_{2}A_{1}}}
newcommand{QAtC}{mathbf{Q}_{A_{2}C}}
newcommand{QAtw}{mathbf{Q}_{A_{2}{omega}}}
newcommand{QAow}{mathbf{Q}_{A_{1}{omega}}}
begin{document}
begin{tikzpicture}[auto,
% scale=0.8,
% transform shape,
node distance = 15mm and 35mm, on grid,
start chain = going below,
state/.style = {ellipse, minimum height=7mm, inner xsep=0pt,
fill=red, text=white,
on chain},
every edge/.append style = {draw,-Stealth},
every loop/.append style = {looseness=4}
]
begin{scope}[every node/.style = {state}]
node (A) {${omega}$};
node (B) {$A_{2}(1)$};
node (C) {$A_{1}(1)$};
node (D) {${omega}$};
%
node (E) [right=of A] {${omega}$};
node (F) {$A_{2}(2)$};
node (G) {$A_{1}(2)$};
node (H) {${omega}$};
%
node (I) [right=of E] {${omega}$};
node (J) {$A_{2}(m{-}1)$};
node (K) {$A_{1}(m{-}1)$};
node (L) {${omega}$};
%
node (M) [right=of I] {${omega}$};
node (N) {$A_{2}(m)$};
node (O) {$A_{1}(m)$};
node (P) {${omega}$};
end{scope}
%
path (B) edge ["$mathbf{Q}_{A_{2}{omega}}$"] (A)
edge [loop left,"$QAt$"] (B)
edge ["$QAto$"] (C)
(C) edge [loop left,"$QAo$"] (C)
edge ["$mathbf{Q}_{A_{1}{omega}}$"] (D)
edge ["$QAot$" '] (F)
(F) edge ["$mathbf{Q}_{A_{2}{omega}}$"] (E)
edge [loop left,"$QAt$"] (F)
edge node (aux) {$QAto$} (G)
(G) edge [loop left,"$QAo$"] (G)
edge ["$mathbf{Q}_{A_{1}{omega}}$"] (H)
(J) edge ["$mathbf{Q}_{A_{2}{omega}}$"] (I)
edge [loop left,,"$QAt$"] (J)
edge ["$QAto$"] (K)
(K) edge [loop left,"$QAo$"] (K)
edge ["$mathbf{Q}_{A_{1}{omega}}$"] (L)
edge ["$QAot$" '] (N)
(M) edge [loop left,"$QAt$"] (M)
edge ["$QAtw$"] (N)
(N) edge ["$QAto$"] (O)
(O) edge [loop left,"$QAo$"] (O)
edge ["$QAow + QAotmathbf{1}$"] (P);
draw[ultra thick,loosely dotted,shorten <=2mm] (aux) -- + (1.5,0);
end{tikzpicture}
end{document}
i don't know, if this image isn't wide than textwidth since the page layout of your document is unknown. however, you can adjust image width with uncomment lines with scale=... and transform shape and adjust image size accordingly :-)
answered 2 days ago
Zarko
121k865156
edited 2 days ago
answered 2 days ago
Zarko
121k865156
answered 2 days ago
Zarko
121k865156
answered 2 days ago
Zarko
121k865156
121k865156
add a comment |
add a comment |
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1
Wouldn't this either mean that the font becomes super tiny or you clip away some text? Wouldn't it be better to either change notation (e.g.
A_1^{(m-1)}) or to make the other blobs bigger?– marmot
2 days ago
How can I make the circles to ovals? This would solve it
– wayne
2 days ago
1
Just load
usetikzlibrary{shapes.geometric}and changecircletoellipse.– marmot
2 days ago
But in my code there is no parameter to use ovals instead of circles
– wayne
2 days ago
2
Well, you do not disclose all information.
circleis hidden in the definition ofstate. Trytikzset{every state/.append style={fill=red,draw=none,text=white,ellipse}}.– marmot
2 days ago