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D.5.8.2 blowUp2

Procedure from library resolve.lib (see resolve_lib).

Usage:
blowUp2(J,C);
J,C = ideals,

Assume:
C = ideal containing J

Note:
C the ideal of the center of the blowup and J the ideal of the variety
Important differences to blowUp:
- V(J) itself is blown up, not the ambient space
- C is not assumed to be non-singular

Compute:
the blowing up of J in C, the exceptional locus and the blow-up map

Return:
list, say l, of size at most size(C),

l[i] is the affine ring corresponding to the i-th chart each l[i] contains the ideals
- Jnew, ideal of the blownup J
- eD, ideal of the new exceptional divisor
- bM, ideal corresponding to the blowup map

Example:
 
LIB "resolve.lib";
ring r=0,(x,y,z),dp;
ideal I=z2-x^3*y^2;
ideal C=z,xy;
list li=blowUp2(I,C);
size(li);                  // number of charts
==> 2
def S1=li[1];
setring S1;                // chart 1
basering;
==> //   characteristic : 0
==> //   number of vars : 3
==> //        block   1 : ordering dp
==> //                  : names    x(1) x(3) y(2)
==> //        block   2 : ordering C
Jnew;
==> Jnew[1]=x(1)*y(2)^2-1
eD;
==> eD[1]=x(3)
==> eD[2]=x(1)*y(2)^2-1
bM;
==> bM[1]=x(1)
==> bM[2]=x(3)*y(2)^3
==> bM[3]=x(3)
def S2=li[2];
setring S2;                // chart 2
basering;
==> //   characteristic : 0
==> //   number of vars : 2
==> //        block   1 : ordering dp
==> //                  : names    x(2) y(1)
==> //        block   2 : ordering C
Jnew;
==> Jnew[1]=0
eD;
==> eD[1]=x(2)*y(1)^2
bM;
==> bM[1]=y(1)^2
==> bM[2]=x(2)
==> bM[3]=x(2)*y(1)^3