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XLPack 7.0
XLPack 数値計算ライブラリ (C API) リファレンスマニュアル
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XLPack 7.0
XLPack 数値計算ライブラリ (C API) リファレンスマニュアル
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関数 | |
| void | dassl (int n, void(*res)(int, double, double *, double *, double *, int *), double *t, double y[], double yp[], double tout, int iopt[], double *rtol, double *atol, void(*jac)(int, double, double *, double *, int, double *, double), double work[], int lwork, int iwork[], int liwork, int *info) |
| 微分代数方程式(DAE) (1〜5次 後退微分公式 (BDF)) | |
| void | dassl_r (int n, double *t, double y[], double yp[], double tout, int iopt[], double *rtol, double *atol, double work[], int lwork, int iwork[], int liwork, int *info, double *tt, double yyp[], int ldyypd, double yypd[], double *cj, int *ires, int *irev) |
| 微分代数方程式(DAE) (1〜5次 後退微分公式 (BDF)) (リバースコミュニケーション版) | |
| void | radau (int n, void(*f)(int, double, double *, double *), double *t, double y[], double tout, double *rtol, double *atol, int itol, void(*jac)(int, double, double *, int, double *), int ijac, int mljac, int mujac, void(*mas)(int, int, double *), int imas, int mlmas, int mumas, void(*solout)(int, double, double, double *, int, double *, int *), int iout, double work[], int lwork, int iwork[], int liwork, double cont[], int lcont, int *info) |
| 常微分方程式の初期値問題 (次数(5, 9, 13次)自動選択の陰的ルンゲ・クッタ法 (ラダウIIA法)) | |
| void | radau5 (int n, void(*f)(int, double, double *, double *), double *t, double y[], double tout, double *rtol, double *atol, int itol, void(*jac)(int, double, double *, int, double *), int ijac, int mljac, int mujac, void(*mas)(int, int, double *), int imas, int mlmas, int mumas, void(*solout)(int, double, double, double *, int, double *, int *), int iout, double work[], int lwork, int iwork[], int liwork, double cont[], int lcont, int *info) |
| 常微分方程式の初期値問題 (5次の陰的ルンゲ・クッタ法 (ラダウIIA法)) | |
| void | radau5_r (int n, double *t, double y[], double tout, double *rtol, double *atol, int itol, int ijac, int mljac, int mujac, int imas, int mlmas, int mumas, int iout, double work[], int lwork, int iwork[], int liwork, double cont[], int lcont, int *info, double *tt, double yy[], double yyp[], int ldyypd, double yypd[], int *irtrn, int *irev) |
| 常微分方程式の初期値問題 (5次の陰的ルンゲ・クッタ法 (ラダウIIA法)) (リバースコミュニケーション版) | |
| void | radau_r (int n, double *t, double y[], double tout, double *rtol, double *atol, int itol, int ijac, int mljac, int mujac, int imas, int mlmas, int mumas, int iout, double work[], int lwork, int iwork[], int liwork, double cont[], int lcont, int *info, double *tt, double yy[], double yyp[], int ldyypd, double yypd[], int *irtrn, int *irev) |
| 常微分方程式の初期値問題 (次数(5, 9, 13次)自動選択の陰的ルンゲ・クッタ法 (ラダウIIA法)) (リバースコミュニケーション版) | |
| void | radaup (int n, void(*f)(int, double, double *, double *), double *t, double y[], double tout, double *rtol, double *atol, int itol, void(*jac)(int, double, double *, int, double *), int ijac, int mljac, int mujac, void(*mas)(int, int, double *), int imas, int mlmas, int mumas, void(*solout)(int, double, double, double *, int, double *, int *), int iout, double work[], int lwork, int iwork[], int liwork, double cont[], int lcont, int *info) |
| 常微分方程式の初期値問題 (5, 9, 13次の陰的ルンゲ・クッタ法 (ラダウIIA法)) | |
| void | radaup_r (int n, double *t, double y[], double tout, double *rtol, double *atol, int itol, int ijac, int mljac, int mujac, int imas, int mlmas, int mumas, int iout, double work[], int lwork, int iwork[], int liwork, double cont[], int lcont, int *info, double *tt, double yy[], double yyp[], int ldyypd, double yypd[], int *irtrn, int *irev) |
| 常微分方程式の初期値問題 (5, 9, 13次の陰的ルンゲ・クッタ法 (ラダウIIA法)) (リバースコミュニケーション版) | |
| void | rodas (int n, void(*f)(int, double, double *, double *), int ifcn, double *t, double y[], double tout, double rtol[], double atol[], int itol, void(*jac)(int, double, double *, int, double *), int ijac, int mljac, int mujac, void(*dfx)(int, double, double *, double *), int idfx, void(*mas)(int, int, double *), int imas, int mlmas, int mumas, void(*solout)(int, double, double, double *, int, double *, int *), int iout, double work[], int lwork, int iwork[], int liwork, double cont[], int lcont, int *info) |
| 常微分方程式の初期値問題 (4(3)次 ローゼンブロック法) | |
| void | rodas_r (int n, int ifcn, double *t, double y[], double tout, double rtol[], double atol[], int itol, int ijac, int mljac, int mujac, int idfx, int imas, int mlmas, int mumas, int iout, double work[], int lwork, int iwork[], int liwork, double cont[], int lcont, int *info, double *tt, double yy[], double yyp[], int ldyypd, double yypd[], int *irtrn, int *irev) |
| 常微分方程式の初期値問題 (4(3)次 ローゼンブロック法) (リバースコミュニケーション版) | |
| void | seulex (int n, void(*f)(int, double, double *, double *), int ifcn, double *t, double y[], double tout, double *rtol, double *atol, int itol, void(*jac)(int, double, double *, int, double *), int ijac, int mljac, int mujac, void(*mas)(int, int, double *), int imas, int mlmas, int mumas, void(*solout)(int, double, double, double *, int, double *, int *, int *), int iout, double work[], int lwork, int iwork[], int liwork, double rcont[], int lrcont, int icont[], int licont, int *info) |
| 常微分方程式の初期値問題 (補外法 (線形陰的オイラー法)) | |
| void | seulex_r (int n, int ifcn, double *t, double y[], double tout, double *rtol, double *atol, int itol, int ijac, int mljac, int mujac, int imas, int mlmas, int mumas, int iout, double work[], int lwork, int iwork[], int liwork, double rcont[], int lrcont, int icont[], int licont, int *info, double *tt, double yy[], double yyp[], int ldyypd, double yypd[], int *irtrn, int *irev) |
| 常微分方程式の初期値問題 (補外法 (線形陰的オイラー法)) (リバースコミュニケーション版) | |
I1a2. 常微分方程式の初期値問題 (スティフ関数) プログラムを表示しています.
1.9.7