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NormalToricVarieties :: matrix(ToricMap)

matrix(ToricMap) -- get the underlying map of lattices

Synopsis

Description

Every toric map $f : X \to Y$ corresponds to a unique map $g : N_X \to N_Y$ of lattices such that, for every cone $\sigma$ in the fan of $X$, there is a cone in the fan of $Y$ that contains the image $g(\sigma)$. For more information on this correspondence, see Theorem 3.3.4 in Cox-Little-Schenck's Toric Varieties. This method returns an integer matrix representing $g$.

We illustrate how to access this defining feature of a toric map with the projection from the second Hirzebruch surface to the projective line.

i1 : X = hirzebruchSurface 2;
i2 : Y = toricProjectiveSpace 1;
i3 : f = map(Y, X, matrix {{1, 0}})

o3 = | 1 0 |

o3 : ToricMap Y <--- X
i4 : g = matrix f

o4 = | 1 0 |

              1        2
o4 : Matrix ZZ  <--- ZZ
i5 : assert (isWellDefined f and ring g === ZZ)

An inclusion map into the Cartesian square of a normal toric variety corresponds to matrix having identity and zero blocks.

i6 : X2 = X ** X;
i7 : iota0 = X2_[0]

o7 = | 1 0 |
     | 0 1 |
     | 0 0 |
     | 0 0 |

o7 : ToricMap X2 <--- X
i8 : assert (isWellDefined iota0 and source iota0 === X)
i9 : iota1 = X2_[1]

o9 = | 0 0 |
     | 0 0 |
     | 1 0 |
     | 0 1 |

o9 : ToricMap X2 <--- X
i10 : assert (isWellDefined iota1 and source iota1 === X)

In a well-defined toric map, the number of rows in the underlying matrix must equal the dimension of the target and the number of columns must equal the dimension of the source.

i11 : assert (numColumns g == dim X)
i12 : assert (numRows g == dim Y)

The output display for toric maps is inherited the underlying map of lattices.

i13 : code (net, ToricMap)

o13 = -- code for method: net(ToricMap)
      /usr/share/Macaulay2/NormalToricVarieties/
      net ToricMap := f -> net matrix f
      -----------------------------------------------------------------------
      ToricMaps.m2:10:19-10:33: --source code:

Since this is a defining attribute of a toric map, no computation is required.

See also