Annotation of OpenXM_contrib/PHC/Ada/Continuation/dispatch_predictors.adb, Revision 1.1
1.1 ! maekawa 1: with Predictors; use Predictors;
! 2:
! 3: package body Dispatch_Predictors is
! 4:
! 5: procedure Single_Predictor
! 6: ( s : in out Solu_Info; p : in Pred_Pars;
! 7: prev_x,prev_v : in Vector; v : in out Vector;
! 8: prev_t,target : in Complex_Number;
! 9: step,tol : in double_float; trial : in out natural ) is
! 10:
! 11: procedure TR_Predictor is new Tangent_Single_Real_Predictor(Norm,dH,dH);
! 12: procedure TC_Predictor is new Tangent_Single_Complex_Predictor(Norm,dH,dH);
! 13: procedure TG_Predictor is new Tangent_Geometric_Predictor(Norm,dH,dH);
! 14: procedure HR_Predictor is new Hermite_Single_Real_Predictor(Norm,dH,dH);
! 15:
! 16: begin
! 17: case p.predictor_type is
! 18: when 0 => Secant_Single_Real_Predictor
! 19: (s.sol.v,prev_x,s.sol.t,prev_t,target,step,tol,p.power);
! 20: when 1 => Secant_Single_Complex_Predictor
! 21: (s.sol.v,prev_x,s.sol.t,prev_t,target,step,tol,
! 22: p.dist_target,trial);
! 23: when 2 => Secant_Geometric_Predictor
! 24: (s.sol.v,prev_x,s.sol.t,prev_t,target,step,tol);
! 25: when 3 => TR_Predictor(s.sol.v,s.sol.t,target,step,tol,p.power);
! 26: s.nsyst := s.nsyst + 1;
! 27: when 4 => TC_Predictor
! 28: (s.sol.v,s.sol.t,target,step,tol,p.dist_target,trial);
! 29: s.nsyst := s.nsyst + 1;
! 30: when 5 => TG_Predictor(s.sol.v,s.sol.t,target,step,tol);
! 31: s.nsyst := s.nsyst + 1;
! 32: when 6 => HR_Predictor
! 33: (s.sol.v,prev_x,s.sol.t,prev_t,target,v,prev_v,step,tol);
! 34: s.nsyst := s.nsyst + 1;
! 35: when others => null;
! 36: end case;
! 37: end Single_Predictor;
! 38:
! 39: procedure Multiple_Predictor
! 40: ( s : in out Solu_Info_Array; p : in Pred_Pars;
! 41: sa : in out Solution_Array; prev_sa : in Solution_Array;
! 42: t : in out Complex_Number; prev_t,target : in Complex_Number;
! 43: step,tol,dist : in double_float; trial : in natural ) is
! 44:
! 45: cnt : natural := 0;
! 46:
! 47: procedure TR_Predictor is new Tangent_Multiple_Real_Predictor(Norm,dH,dH);
! 48: procedure TC_Predictor is
! 49: new Tangent_Multiple_Complex_Predictor(Norm,dH,dH);
! 50:
! 51: begin
! 52: case p.predictor_type is
! 53: when 0 => Secant_Multiple_Real_Predictor
! 54: (sa,prev_sa,t,prev_t,target,step,tol,dist,p.power);
! 55: when 1 => Secant_Multiple_Complex_Predictor
! 56: (sa,prev_sa,t,prev_t,target,step,tol,dist,
! 57: p.dist_target,trial);
! 58: when 3 => TR_Predictor(sa,t,target,step,tol,dist,cnt,p.power);
! 59: for k in s'range loop
! 60: s(k).nsyst := s(k).nsyst + 1;
! 61: end loop;
! 62: when 4 => TC_Predictor
! 63: (sa,t,target,step,tol,dist,p.dist_target,trial,cnt);
! 64: for k in s'range loop
! 65: s(k).nsyst := s(k).nsyst + 1;
! 66: end loop;
! 67: when others => null;
! 68: end case;
! 69: end Multiple_Predictor;
! 70:
! 71: end Dispatch_Predictors;
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