X-Git-Url: https://www.ginac.de/ginac.git//ginac.git?p=ginac.git;a=blobdiff_plain;f=ginac%2Fflags.h;h=ef921600aaa25483a58d54e846007b8c395a33e9;hp=41a890b11c34aa14c86cf13535d69bea5b824b7a;hb=aea526b213d67cb25c02e232396d8595f8434859;hpb=9df145c8bfa8ce9f2cbe6c05673481b6ca4c4c22
diff --git a/ginac/flags.h b/ginac/flags.h
index 41a890b1..ef921600 100644
--- a/ginac/flags.h
+++ b/ginac/flags.h
@@ -3,7 +3,7 @@
* Collection of all flags used through the GiNaC framework. */
/*
- * GiNaC Copyright (C) 1999-2000 Johannes Gutenberg University Mainz, Germany
+ * GiNaC Copyright (C) 1999-2003 Johannes Gutenberg University Mainz, Germany
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
@@ -23,128 +23,235 @@
#ifndef __GINAC_FLAGS_H__
#define __GINAC_FLAGS_H__
-#ifndef NO_NAMESPACE_GINAC
namespace GiNaC {
-#endif // ndef NO_NAMESPACE_GINAC
+/** Flags to control the behavior of expand(). */
class expand_options {
public:
- enum { expand_trigonometric = 0x0001
- };
+ enum {
+ expand_indexed = 0x0001, ///< expands (a+b).i to a.i+b.i
+ expand_function_args = 0x0002 ///< expands the arguments of functions
+ };
+};
+
+/** Flags to control the behavior of subs(). */
+class subs_options {
+public:
+ enum {
+ no_pattern = 0x0001, ///< disable pattern matching
+ subs_no_pattern = 0x0001, // for backwards compatibility
+ algebraic = 0x0002, ///< enable algebraic substitutions
+ subs_algebraic = 0x0002, // for backwards compatibility
+ pattern_is_product = 0x0004, ///< used internally by expairseq::subschildren()
+ pattern_is_not_product = 0x0008 ///< used internally by expairseq::subschildren()
+ };
};
+/** Flags to control series expansion. */
class series_options {
public:
- enum { suppress_branchcut = 0x0001
- };
+ enum {
+ /** Suppress branch cuts in series expansion. Branch cuts manifest
+ * themselves as step functions, if this option is not passed. If
+ * it is passed and expansion at a point on a cut is performed, then
+ * the analytic continuation of the function is expanded. */
+ suppress_branchcut = 0x0001
+ };
};
+/** Switch to control algorithm for determinant computation. */
class determinant_algo {
public:
- enum { automatic,
- gauss,
- laplace,
- bareiss
- };
+ enum {
+ /** Let the system choose. A heuristics is applied for automatic
+ * determination of a suitable algorithm. */
+ automatic,
+ /** Gauss elimination. If \f$m_{i,j}^{(0)}\f$ are the entries of the
+ * original matrix, then the matrix is transformed into triangular
+ * form by applying the rules
+ * \f[
+ * m_{i,j}^{(k+1)} = m_{i,j}^{(k)} - m_{i,k}^{(k)} m_{k,j}^{(k)} / m_{k,k}^{(k)}
+ * \f]
+ * The determinant is then just the product of diagonal elements.
+ * Choose this algorithm only for purely numerical matrices. */
+ gauss,
+ /** Division-free elimination. This is a modification of Gauss
+ * elimination where the division by the pivot element is not
+ * carried out. If \f$m_{i,j}^{(0)}\f$ are the entries of the
+ * original matrix, then the matrix is transformed into triangular
+ * form by applying the rules
+ * \f[
+ * m_{i,j}^{(k+1)} = m_{i,j}^{(k)} m_{k,k}^{(k)} - m_{i,k}^{(k)} m_{k,j}^{(k)}
+ * \f]
+ * The determinant can later be computed by inspecting the diagonal
+ * elements only. This algorithm is only there for the purpose of
+ * cross-checks. It is never fast. */
+ divfree,
+ /** Laplace elimination. This is plain recursive elimination along
+ * minors although multiple minors are avoided by the algorithm.
+ * Although the algorithm is exponential in complexity it is
+ * frequently the fastest one when the matrix is populated by
+ * complicated symbolic expressions. */
+ laplace,
+ /** Bareiss fraction-free elimination. This is a modification of
+ * Gauss elimination where the division by the pivot element is
+ * delayed until it can be carried out without computing
+ * GCDs. If \f$m_{i,j}^{(0)}\f$ are the entries of the original
+ * matrix, then the matrix is transformed into triangular form by
+ * applying the rules
+ * \f[
+ * m_{i,j}^{(k+1)} = (m_{i,j}^{(k)} m_{k,k}^{(k)} - m_{i,k}^{(k)} m_{k,j}^{(k)}) / m_{k-1,k-1}^{(k-1)}
+ * \f]
+ * (We have set \f$m_{-1,-1}^{(-1)}=1\f$ in order to avoid a case
+ * distinction in above formula.) It can be shown that nothing more
+ * than polynomial long division is needed for carrying out the
+ * division. The determinant can then be read of from the lower
+ * right entry. This algorithm is rarely fast for computing
+ * determinants. */
+ bareiss
+ };
+};
+
+/** Switch to control algorithm for linear system solving. */
+class solve_algo {
+public:
+ enum {
+ /** Let the system choose. A heuristics is applied for automatic
+ * determination of a suitable algorithm. */
+ automatic,
+ /** Gauss elimination. If \f$m_{i,j}^{(0)}\f$ are the entries of the
+ * original matrix, then the matrix is transformed into triangular
+ * form by applying the rules
+ * \f[
+ * m_{i,j}^{(k+1)} = m_{i,j}^{(k)} - m_{i,k}^{(k)} m_{k,j}^{(k)} / m_{k,k}^{(k)}
+ * \f]
+ * This algorithm is well-suited for numerical matrices but generally
+ * suffers from the expensive division (and computation of GCDs) at
+ * each step. */
+ gauss,
+ /** Division-free elimination. This is a modification of Gauss
+ * elimination where the division by the pivot element is not
+ * carried out. If \f$m_{i,j}^{(0)}\f$ are the entries of the
+ * original matrix, then the matrix is transformed into triangular
+ * form by applying the rules
+ * \f[
+ * m_{i,j}^{(k+1)} = m_{i,j}^{(k)} m_{k,k}^{(k)} - m_{i,k}^{(k)} m_{k,j}^{(k)}
+ * \f]
+ * This algorithm is only there for the purpose of cross-checks.
+ * It suffers from exponential intermediate expression swell. Use it
+ * only for small systems. */
+ divfree,
+ /** Bareiss fraction-free elimination. This is a modification of
+ * Gauss elimination where the division by the pivot element is
+ * delayed until it can be carried out without computing
+ * GCDs. If \f$m_{i,j}^{(0)}\f$ are the entries of the original
+ * matrix, then the matrix is transformed into triangular form by
+ * applying the rules
+ * \f[
+ * m_{i,j}^{(k+1)} = (m_{i,j}^{(k)} m_{k,k}^{(k)} - m_{i,k}^{(k)} m_{k,j}^{(k)}) / m_{k-1,k-1}^{(k-1)}
+ * \f]
+ * (We have set \f$m_{-1,-1}^{(-1)}=1\f$ in order to avoid a case
+ * distinction in above formula.) It can be shown that nothing more
+ * than polynomial long division is needed for carrying out the
+ * division. This is generally the fastest algorithm for solving
+ * linear systems. In contrast to division-free elimination it only
+ * has a linear expression swell. For two-dimensional systems, the
+ * two algorithms are equivalent, however. */
+ bareiss
+ };
};
+/** Flags to store information about the state of an object.
+ * @see basic::flags */
class status_flags {
public:
- enum { dynallocated = 0x0001,
- evaluated = 0x0002,
- expanded = 0x0004,
- hash_calculated = 0x0008
- };
+ enum {
+ dynallocated = 0x0001, ///< heap-allocated (i.e. created by new if we want to be clever and bypass the stack, @see ex::construct_from_basic() )
+ evaluated = 0x0002, ///< .eval() has already done its job
+ expanded = 0x0004, ///< .expand(0) has already done its job (other expand() options ignore this flag)
+ hash_calculated = 0x0008, ///< .calchash() has already done its job
+ not_shareable = 0x0010 ///< don't share instances of this object between different expressions unless explicitly asked to (used by ex::compare())
+ };
};
/** Possible attributes an object can have. */
class info_flags {
public:
- enum {
- // answered by class numeric
- numeric,
- real,
- rational,
- integer,
- crational,
- cinteger,
- positive,
- negative,
- nonnegative,
- posint,
- negint,
- nonnegint,
- even,
- odd,
- prime,
-
- // answered by class relation
- relation,
- relation_equal,
- relation_not_equal,
- relation_less,
- relation_less_or_equal,
- relation_greater,
- relation_greater_or_equal,
-
- // answered by class symbol
- symbol,
-
- // answered by class lst
- list,
-
- // answered by class exprseq
- exprseq,
-
- // answered by classes numeric, symbol, add, mul, power
- polynomial,
- integer_polynomial,
- cinteger_polynomial,
- rational_polynomial,
- crational_polynomial,
- rational_function,
- algebraic,
-
- // answered by class indexed
- indexed, // class can carry indices
- has_indices, // object has at least one index
-
- // answered by class idx
- idx,
-
- // answered by class coloridx
- coloridx,
-
- // answered by class lorentzidx
- lorentzidx
- };
-};
+ enum {
+ // answered by class numeric
+ numeric,
+ real,
+ rational,
+ integer,
+ crational,
+ cinteger,
+ positive,
+ negative,
+ nonnegative,
+ posint,
+ negint,
+ nonnegint,
+ even,
+ odd,
+ prime,
-class return_types {
-public:
- enum { commutative, noncommutative, noncommutative_composite};
+ // answered by class relation
+ relation,
+ relation_equal,
+ relation_not_equal,
+ relation_less,
+ relation_less_or_equal,
+ relation_greater,
+ relation_greater_or_equal,
+
+ // answered by class symbol
+ symbol,
+
+ // answered by class lst
+ list,
+
+ // answered by class exprseq
+ exprseq,
+
+ // answered by classes numeric, symbol, add, mul, power
+ polynomial,
+ integer_polynomial,
+ cinteger_polynomial,
+ rational_polynomial,
+ crational_polynomial,
+ rational_function,
+ algebraic,
+
+ // answered by class indexed
+ indexed, // class can carry indices
+ has_indices, // object has at least one index
+
+ // answered by class idx
+ idx
+ };
};
-class csrc_types {
+class return_types {
public:
enum {
- ctype_float,
- ctype_double,
- ctype_cl_N
+ commutative,
+ noncommutative,
+ noncommutative_composite
};
};
+/** Strategies how to clean up the function remember cache.
+ * @see remember_table */
class remember_strategies {
public:
- enum { delete_never, // let table grow undefinitely, not recommmended, but currently default
- delete_lru, // least recently used
- delete_lfu, // least frequently used
- delete_cyclic // first (oldest) one in list
- };
+ enum {
+ delete_never, ///< Let table grow undefinitely
+ delete_lru, ///< Least recently used
+ delete_lfu, ///< Least frequently used
+ delete_cyclic ///< First (oldest) one in list
+ };
};
-#ifndef NO_NAMESPACE_GINAC
} // namespace GiNaC
-#endif // ndef NO_NAMESPACE_GINAC
#endif // ndef __GINAC_FLAGS_H__