\begin{thebibliography}{10} \bibitem{ABBL:pisot} S.~Akiyama, M.~Barge, V.~Berth{\'e}, J.-Y. Lee, and A.~Siegel, On the {P}isot substitution conjecture. \newblock In {\em Mathematics of Aperiodic Order}, Vol. 309 of {\em Progr. Math.}, pp. 33--72. Birkh\"auser/Springer, 2015. \bibitem{AGL:pisot} S.~Akiyama, F.~G{\"a}hler, and J.-Y. Lee, Determining pure discrete spectrum for some self-affine tilings, {\em Discrete Math. Theor. Comput. Sci.} {\bf 16} (2014), 305--316. \bibitem{AP} J.~E. Anderson and I.~F. Putnam, Topological invariants for substitution tilings and their associated {$C^*$}-algebras, {\em Ergodic Theory Dynam. Systems} {\bf 18} (1998), 509--537. \bibitem{BGG:substitutions} M.~Baake, F.~G{\"a}hler, and U.~Grimm, Examples of substitution systems and their factors, {\em J. Integer Seq.} {\bf 16} (2013), Article 13.2.14, 18. \bibitem{BG:book} M.~Baake and U.~Grimm, {\em Aperiodic Order. Volume 1: A Mathematical Invitation}, Vol. 149 of {\em Encyclopedia Math. Appl.}, Cambridge Univ. Press, 2013. \bibitem{B:proper-bijective} M.~Barge, Pure discrete spectrum for a class of one-dimensional substitution tiling systems, {\em Discrete Contin. Dyn. Syst.} {\bf 36} (2016), 1159--1173. \bibitem{B:pisot-beta-subs} M.~{Barge}, The {P}isot conjecture for $\beta$-substitutions, {\em to appear in Ergodic Theory Dynam. Systems} (2017). \bibitem{BBJS:homological-pisot} M.~Barge, H.~Bruin, L.~Jones, and L.~Sadun, Homological {P}isot substitutions and exact regularity, {\em Israel J. Math.} {\bf 188} (2012), 281--300. \bibitem{BD:pisot-coincidence} M.~Barge and B.~Diamond, Coincidence for substitutions of {P}isot type, {\em Bull. Soc. Math. France} {\bf 130} (2002), 619--626. \bibitem{BD} M.~Barge and B.~Diamond, Cohomology in one-dimensional substitution tiling spaces, {\em Proc. Amer. Math. Soc.} {\bf 136} (2008), 2183--2191. \bibitem{BSW:pds} M.~Barge, S.~{\v{S}}timac, and R.~F. Williams, Pure discrete spectrum in substitution tiling spaces, {\em Discrete Contin. Dyn. Syst.} {\bf 33} (2013), 579--597. \bibitem{BHZ:gap-labeling} J.~Bellissard, D.~J.~L. Herrmann, and M.~Zarrouati, Hulls of aperiodic solids and gap labeling theorems. \newblock In {\em Directions in Mathematical Quasicrystals}, Vol.~13 of {\em CRM Monogr. Ser.}, pp. 207--258. Amer. Math. Soc., 2000. \bibitem{B:undecidability} R.~Berger, The undecidability of the domino problem, {\em Mem. Amer. Math. Soc.} {\bf 66} (1966), 1--72. \bibitem{BJS:arnoux-rauzy} V.~Berth{\'e}, T.~Jolivet, and A.~Siegel, Substitutive {A}rnoux-{R}auzy sequences have pure discrete spectrum, {\em Unif. Distrib. Theory} {\bf 7} (2012), 173--197. \bibitem{BS:beta-numerations} V.~Berth{\'e} and A.~Siegel, Tilings associated with beta-numeration and substitutions, {\em Integers} {\bf 5} (2005), A2, 1--46. \bibitem{B:bott-tu} R.~Bott and L.~W. Tu, {\em Differential Forms in Algebraic Topology}, Grad. Texts in Math., Springer, 1982. \bibitem{R:stack-exchange} G.~Bourgeois, How to test if a primitive matrix has an eigenvalue of unit modulus, \url{http://math.stackexchange.com/q/1440992}, Math. Stack Exchange, 2015. \bibitem{BH:shift-equivalence} M.~Boyle and D.~Handelman, Algebraic shift equivalence and primitive matrices, {\em Trans. Amer. Math. Soc.} {\bf 336} (1993), 121--149. \bibitem{CE:book} H.~Cartan and S.~Eilenberg, {\em Homological Algebra}, Princeton Univ. Press, 1956. \bibitem{C:chacon-sub} R.~V. Chacon, Weakly mixing transformations which are not strongly mixing, {\em Proc. Amer. Math. Soc.} {\bf 22} (1969), 559--562. \bibitem{CH:codim-one-attractors} A.~Clark and J.~Hunton, Tiling spaces, codimension one attractors and shape, {\em New York J. Math.} {\bf 18} (2012), 765--796. \bibitem{CS:shape} A.~Clark and L.~Sadun, When shape matters: deformations of tiling spaces, {\em Ergodic Theory Dynam. Systems} {\bf 26} (2006), 69--86. \bibitem{C:iterates-of-words} K.~Culik, II, The decidability of {$\upsilon $}-local catenativity and of other properties of {${\rm D}0{\rm L}$} systems, {\em Inform. Process. Lett.} {\bf 7} (1978), 33--35. \bibitem{D:period-doubling} D.~Damanik, Local symmetries in the period-doubling sequence, {\em Discrete Appl. Math.} {\bf 100} (2000), 115--121. \bibitem{D:decomposable} M.~Dugas, Torsion-free abelian groups defined by an integral matrix, {\em Int. J. Algebra} {\bf 6} (2012), 85--99. \bibitem{D:derived-seqs} F.~Durand, A characterization of substitutive sequences using return words, {\em Discrete Math.} {\bf 179} (1998), 89--101. \bibitem{DHS:return-words} F.~Durand, B.~Host, and C.~Skau, Substitutional dynamical systems, {B}ratteli diagrams and dimension groups, {\em Ergodic Theory Dynam. Systems} {\bf 19} (1999), 953--993. \bibitem{DL:properisation} F.~Durand and J.~Leroy, {$S$}-adic conjecture and {B}ratteli diagrams, {\em C. R. Math. Acad. Sci. Paris} {\bf 350} (2012), 979--983. \bibitem{ER:iterates-of-words} A.~Ehrenfeucht and G.~Rozenberg, On simplifications of {PDOL} systems, In {\em Proceedings of a {C}onference on {T}heoretical {C}omputer {S}cience ({U}niv. {W}aterloo, {W}aterloo, {O}nt., 1977)}, pp. 81--87. Comput. Sci. Dept., Univ. Waterloo, Waterloo, Ont., 1978. \bibitem{F:chacon} S.~Ferenczi, Les transformations de {C}hacon: combinatoire, structure g\'eom\'etrique, lien avec les syst\`emes de complexit\'e {$2n+1$}, {\em Bull. Soc. Math. France} {\bf 123} (1995), 271--292. \bibitem{F:complexity} S.~Ferenczi, Rank and symbolic complexity, {\em Ergodic Theory Dynam. Systems} {\bf 16} (1996), 663--682. \bibitem{F:complexity2} S.~Ferenczi, Complexity of sequences and dynamical systems, {\em Discrete Math.} {\bf 206} (1999), 145--154. \newblock Combinatorics and number theory (Tiruchirappalli, 1996). \bibitem{F:book} N.~P. Fogg, {\em Substitutions in Dynamics, Arithmetics and Combinatorics}, Vol. 1794 of {\em Lecture Notes in Math.}, Springer-Verlag, 2002. \bibitem{GM:multi-one-d} F.~G{\"a}hler and G.~R. Maloney, Cohomology of one-dimensional mixed substitution tiling spaces, {\em Topology Appl.} {\bf 160} (2013), 703--719. \bibitem{GSS:subword-complexity} D.~Go\v{c}, L.~Schaeffer, and J.~Shallit, Subword complexity and {$k$}-synchronization. \newblock In {\em Developments in Language Theory}, Vol. 7907 of {\em Lecture Notes in Comput. Sci.}, pp. 252--263. Springer, 2013. \bibitem{HL:periodicity} T.~Harju and M.~Linna, On the periodicity of morphisms on free monoids, {\em RAIRO Theor. Inform. Appl.} {\bf 20} (1986), 47--54. \bibitem{H:book} A.~Hatcher, {\em Algebraic Topology}, Cambridge Univ. Press, 2002. \bibitem{HS:pisot} M.~Hollander and B.~Solomyak, Two-symbol {P}isot substitutions have pure discrete spectrum, {\em Ergodic Theory Dynam. Systems} {\bf 23} (2003), 533--540. \bibitem{J:complexity} A.~Julien, Complexity and cohomology for cut-and-projection tilings, {\em Ergodic Theory Dynam. Systems} {\bf 30} (2010), 489--523. \bibitem{L:comp-sci-book} A.~Lagae, {\em Wang Tiles in Computer Graphics}, Synthesis Lectures on Computer Graphics and Animation, Morgan \& Claypool Publishers, 2009. \bibitem{L:factorising} A.~K. Lenstra, H.~W. Lenstra, Jr., and L.~Lov{\'a}sz, Factoring polynomials with rational coefficients, {\em Math. Ann.} {\bf 261} (1982), 515--534. \bibitem{LM:introduction-to-symbolic} D.~Lind and B.~Marcus, {\em An Introduction to Symbolic Dynamics and Coding}, Cambridge Univ. Press, 1995. \bibitem{MR:non-primitive} G.~R. Maloney and D.~Rust, Beyond primitivity for one-dimensional substitution subshifts and tiling spaces, {\em to appear in Ergodic Theory Dynam. Systems} (2017). \bibitem{MH:complexity} M.~Morse and G.~A. Hedlund, Symbolic dynamics, {\em Amer. J. Math.} {\bf 60} (1938), 815--866. \bibitem{M:aperiodic} B.~Moss{\'e}, Puissances de mots et reconnaissabilit\'e des points fixes d'une substitution, {\em Theoret. Comput. Sci.} {\bf 99} (1992), 327--334. \bibitem{P:pentaplexity} R.~Penrose, Pentaplexity: A class of non-periodic tilings of the plane, {\em Math. Intelligencer} {\bf 2} (1979), 32--37. \bibitem{P:thue-morse} E.~Prouhet, M\'emoir sur quelques relations entre les puissances des nombres, {\em C. R. Math. Acad. Sci. Paris} {\bf 1} (1851), 225. \bibitem{R:rauzy-fractals} G.~Rauzy, Nombres alg\'ebriques et substitutions, {\em Bull. Soc. Math. France} {\bf 110} (1982), 147--178. \bibitem{R:rauzy-graphs} G.~Rauzy, Suites \`a termes dans un alphabet fini. \newblock In {\em Seminar on Number Theory, 1982--1983 ({T}alence, 1982/1983)}, pp. Exp. No. 25, 16. Univ. Bordeaux I, Talence, 1983. \bibitem{R:rudin-shapiro} W.~Rudin, Some theorems on {F}ourier coefficients, {\em Proc. Amer. Math. Soc.} {\bf 10} (1959), 855--859. \bibitem{S:frequency} K.~Saari, On the frequency of letters in morphic sequences. \newblock In {\em Computer Science---Theory and Applications}, Vol. 3967 of {\em Lecture Notes in Comput. Sci.}, pp. 334--345. Springer, 2006. \bibitem{S:book} L.~Sadun, {\em Topology of Tiling Spaces}, Vol.~46 of {\em Univ. Lecture Ser.}, Amer. Math. Soc., 2008. \bibitem{SW:bi-infinite} J.~Shallit and M.~Wang, On two-sided infinite fixed points of morphisms, {\em Theoret. Comput. Sci.} {\bf 270} (2002), 659--675. \bibitem{S:nobel} D.~Shechtman, I.~Blech, D.~Gratias, and J.~W. Cahn, Metallic phase with long-range orientational order and no translational symmetry, {\em Phys. Rev. Lett.} {\bf 53} (1984), 1951--1953. \bibitem{S:flipped-tribonacci} V.~F. Sirvent, Semigroups and the self-similar structure of the flipped {T}ribonacci substitution, {\em Appl. Math. Lett.} {\bf 12} (1999), 25--29. \bibitem{OEIS} N.~J.~A. Sloane, {\em The On-Line Encyclopedia of Integer Sequences}. \newblock Published electronically at \url{http://oeis.org}. \bibitem{S:pisot} B.~Solomyak, Dynamics of self-similar tilings, {\em Ergodic Theory Dynam. Systems} {\bf 17} (1997), 695--738. \bibitem{S:aperiodic} B.~Solomyak, Nonperiodicity implies unique composition for self-similar translationally finite tilings, {\em Discrete Comput. Geom.} {\bf 20} (1998), 265--279. \bibitem{T:thue-morse} A.~Thue, \"{U}ber unendliche {Z}eichenreihen, {\em Norske vid. Selsk. Skr. Mat. Nat. Kl.} {\bf 7} (1906), 1--22. \bibitem{T:virology-tilings} R.~Twarock, A tiling approach to virus capsid assembly explaining a structural puzzle in virology, {\em J. Theoret. Biol.} {\bf 226} (2004), 477--482. \end{thebibliography}