Changeset 3576f6 in git for Singular/LIB/paraplanecurves.lib
- Timestamp:
- Sep 30, 2010, 8:08:38 PM (14 years ago)
- Branches:
- (u'spielwiese', '17f1d200f27c5bd38f5dfc6e8a0879242279d1d8')
- Children:
- 0a2f7deb9cde7da147b192a31ec765e4f3923a09
- Parents:
- 6c265be9fad13d2b204e3404c097aca03a223223
- File:
-
- 1 edited
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Singular/LIB/paraplanecurves.lib
r6c265b r3576f6 253 253 and y as algebraic and computes an integral basis in C(x)[y] of the integral 254 254 closure of C[x] in C(x,y) using the normalization algorithm from normal.lib 255 (see int basis.lib). In a future edition of the library, also van Hoeij's255 (see integralbasis.lib). In a future edition of the library, also van Hoeij's 256 256 algorithm for computing the integral basis will be available. @* 257 257 From the integral basis, the adjoint ideal is obtained by linear algebra. … … 454 454 transcendental and y as algebraic and computes an integral basis in C(x)[y] of 455 455 the integral closure of C[x] in C(x,y) using the normalization algorithm 456 from normal.lib (see int basis.lib). In a future edition of the library, also457 van Hoeij's algorithm for computing the integral basis will be available.@*456 from normal.lib (see integralbasis.lib). In a future edition of the library, 457 also van Hoeij's algorithm for computing the integral basis will be available.@* 458 458 From the integral basis, the adjoint ideal is obtained by linear algebra. 459 459 Alternatively, the algorithm starts with a local analysis of the singular
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