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In this paper, we give a polynomial time algorithm which determines if a given triangle-free graph with no induced seven-vertex path is 3-colorable, and gives an explicit coloring if one exists.

Combinatorics · Mathematics 2014-09-19 Maria Chudnovsky , Peter Maceli , Mingxian Zhong

We give a linear-time algorithm to decide 3-colorability of a triangle-free graph embedded in a fixed surface, and a quadratic-time algorithm to output a 3-coloring in the affirmative case. The algorithms also allow to prescribe the…

Discrete Mathematics · Computer Science 2020-11-10 Zdenek Dvorak , Daniel Kral , Robin Thomas

We present an algorithm to color a graph $G$ with no triangle and no induced $7$-vertex path (i.e., a $\{P_7,C_3\}$-free graph), where every vertex is assigned a list of possible colors which is a subset of $\{1,2,3\}$. While this is a…

It is an open problem whether the 3-coloring problem can be solved in polynomial time in the class of graphs that do not contain an induced path on $t$ vertices, for fixed $t$. We propose an algorithm that, given a 3-colorable graph without…

Combinatorics · Mathematics 2016-06-14 Maria Chudnovsky , Oliver Schaudt , Sophie Spirkl , Maya Stein , Mingxian Zhong

For an integer $r$, the graph $P_6+rP_3$ has $r+1$ components, one of which is a path on $6$ vertices, and each of the others is a path on $3$ vertices. In this paper we provide a polynomial-time algorithm to test if a graph with no induced…

Combinatorics · Mathematics 2018-07-03 Maria Chudnovsky , Shenwei Huang , Sophie Spirkl , Mingxian Zhong

We present a polynomial-time algorithm that determines whether a graph that contains no induced path on six vertices and no bull (the graph with vertices a, b, c, d, e and edges ab, bc, cd, be, ce) is 4-colorable. We also show that for any…

Combinatorics · Mathematics 2016-02-25 Frédéric Maffray , Lucas Pastor

We give a linear-time algorithm to decide 3-colorability (and find a 3-coloring, if it exists) of quadrangulations of a fixed surface. The algorithm also allows to prescribe the coloring for a bounded number of vertices.

Combinatorics · Mathematics 2020-08-20 Zdenek Dvorak , Daniel Kral , Robin Thomas

We show that the 4-coloring problem can be solved in polynomial time for graphs with no induced 5-cycle $C_5$ and no induced 6-vertex path $P_6$.

Discrete Mathematics · Computer Science 2014-07-10 Maria Chudnovsky , Peter Maceli , Juraj Stacho , Mingxian Zhong

A graph is $P_t$-free if it contains no induced subgraph isomorphic to a $t$-vertex path. A graph is not bipartite if and only if it contains an induced subgraph isomorphic to a $k$-vertex cycle, where $k$ is odd. We focus on the 3-coloring…

Combinatorics · Mathematics 2025-12-09 Yidong Zhou , Mingxian Zhong , Shenwei Huang

In the problem of 2-coloring without monochromatic triangles (or triangle-tree 2-coloring), vertices of the simple, connected, undirected graph are colored with either 'black' or 'white' such that there are no 3 mutually adjacent vertices…

Data Structures and Algorithms · Computer Science 2021-10-12 Michał Karpiński , Krzysztof Piecuch

The question of whether 3-Coloring can be solved in polynomial-time for the diameter two graphs is a well-known open problem in the area of algorithmic graph theory. We study the problem restricted to graph classes that avoid cycles of…

Data Structures and Algorithms · Computer Science 2023-07-28 Tereza Klimošová , Vibha Sahlot

Grotzsch's theorem states that every triangle-free planar graph is 3-colorable. Several relatively simple proofs of this fact were provided by Thomassen and other authors. It is easy to convert these proofs into quadratic-time algorithms to…

Combinatorics · Mathematics 2013-02-22 Zdenek Dvorak , Ken-ichi Kawarabayashi , Robin Thomas

This is the second paper in a series of two. The goal of the series is to give a polynomial time algorithm for the $4$-coloring problem and the $4$-precoloring extension problem restricted to the class of graphs with no induced six-vertex…

Combinatorics · Mathematics 2018-02-09 Maria Chudnovsky , Sophie Spirkl , Mingxian Zhong

This is the first paper in a series whose goal is to give a polynomial time algorithm for the $4$-coloring problem and the $4$-precoloring extension problem restricted to the class of graphs with no induced six-vertex path, thus proving a…

Combinatorics · Mathematics 2018-07-16 Maria Chudnovsky , Sophie Spirkl , Mingxian Zhong

We give a polynomial-time algorithm that computes the chromatic number of any graph that contains no path on five vertices and no bull as an induced subgraph (where the bull is the graph with five vertices $a,b,c,d,e$ and edges…

Combinatorics · Mathematics 2017-07-28 Frédéric Maffray

We prove a decomposition theorem for the class of triangle-free graphs that do not contain a subdivision of the complete graph on four vertices as an induced subgraph. We prove that every graph of girth at least~5 in this class is…

Combinatorics · Mathematics 2020-12-01 Nicolas Trotignon , Kristina Vušković

A graph $G$ is a circle graph if it is an intersection graph of chords of a unit circle. We give an algorithm that takes as input an $n$ vertex circle graph $G$, runs in time at most $n^{O(\log n)}$ and finds a proper $3$-coloring of $G$,…

Data Structures and Algorithms · Computer Science 2025-11-14 Ajaykrishnan E S , Robert Ganian , Daniel Lokshtanov , Vaishali Surianarayanan

For any odd $t\ge 9$, we present a polynomial-time algorithm that solves the $3$-colouring problem, and finds a $3$-colouring if one exists, in $P_{t}$-free graphs of odd girth at least $t-2$. In particular, our algorithm works for $(P_9,…

Combinatorics · Mathematics 2020-08-12 Alberto Rojas , Maya Stein

A vertex colouring of a graph $G$ is "nonrepetitive" if $G$ contains no path for which the first half of the path is assigned the same sequence of colours as the second half. Thue's famous theorem says that every path is nonrepetitively…

Combinatorics · Mathematics 2021-09-13 David R. Wood

We show that triangle-free graphs that do not contain an induced subgraph isomorphic to a subdivision of K4 are 3-colorable. This proves a conjecture of Trotignon and Vuskovic.

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