/*  */
#include <math.h>

#include "../interpreter.h"


static double M_EValue = 2.7182818284590452354;   /* e */
static double M_LOG2EValue = 1.4426950408889634074;   /* log_2 e */
static double M_LOG10EValue = 0.43429448190325182765;  /* log_10 e */
static double M_LN2Value = 0.69314718055994530942;  /* log_e 2 */
static double M_LN10Value = 2.30258509299404568402;  /* log_e 10 */
static double M_PIValue = 3.14159265358979323846;  /* pi */
static double M_PI_2Value = 1.57079632679489661923;  /* pi/2 */
static double M_PI_4Value = 0.78539816339744830962;  /* pi/4 */
static double M_1_PIValue = 0.31830988618379067154;  /* 1/pi */
static double M_2_PIValue = 0.63661977236758134308;  /* 2/pi */
static double M_2_SQRTPIValue = 1.12837916709551257390;  /* 2/sqrt(pi) */
static double M_SQRT2Value = 1.41421356237309504880;  /* sqrt(2) */
static double M_SQRT1_2Value =  0.70710678118654752440;  /* 1/sqrt(2) */


void MathSin(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = sin(Param[0]->Val->FP);
}

void MathCos(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = cos(Param[0]->Val->FP);
}

void MathTan(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = tan(Param[0]->Val->FP);
}

void MathAsin(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = asin(Param[0]->Val->FP);
}

void MathAcos(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = acos(Param[0]->Val->FP);
}

void MathAtan(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = atan(Param[0]->Val->FP);
}

void MathAtan2(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = atan2(Param[0]->Val->FP, Param[1]->Val->FP);
}

void MathSinh(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = sinh(Param[0]->Val->FP);
}

void MathCosh(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = cosh(Param[0]->Val->FP);
}

void MathTanh(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = tanh(Param[0]->Val->FP);
}

void MathExp(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = exp(Param[0]->Val->FP);
}

void MathFabs(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = fabs(Param[0]->Val->FP);
}

void MathFmod(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = fmod(Param[0]->Val->FP, Param[1]->Val->FP);
}

void MathFrexp(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = frexp(Param[0]->Val->FP, Param[1]->Val->Pointer);
}

void MathLdexp(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = ldexp(Param[0]->Val->FP, Param[1]->Val->Integer);
}

void MathLog(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = log(Param[0]->Val->FP);
}

void MathLog10(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = log10(Param[0]->Val->FP);
}

void MathModf(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = modf(Param[0]->Val->FP, Param[0]->Val->Pointer);
}

void MathPow(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = pow(Param[0]->Val->FP, Param[1]->Val->FP);
}

void MathSqrt(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = sqrt(Param[0]->Val->FP);
}

void MathRound(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    /* this awkward definition of "round()" due to it being inconsistently
     * declared in math.h */
    ReturnValue->Val->FP = ceil(Param[0]->Val->FP - 0.5);
}

void MathCeil(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = ceil(Param[0]->Val->FP);
}

void MathFloor(struct ParseState *Parser, struct Value *ReturnValue,
    struct Value **Param, int NumArgs)
{
    ReturnValue->Val->FP = floor(Param[0]->Val->FP);
}

/* all math.h functions */
struct LibraryFunction MathFunctions[] =
{
     {MathAcos, "float acos(float);"},
     {MathAsin, "float asin(float);"},
     {MathAtan, "float atan(float);"},
     {MathAtan2, "float atan2(float, float);"},
     {MathCeil, "float ceil(float);"},
     {MathCos, "float cos(float);"},
     {MathCosh, "float cosh(float);"},
     {MathExp, "float exp(float);"},
     {MathFabs, "float fabs(float);"},
     {MathFloor, "float floor(float);"},
     {MathFmod, "float fmod(float, float);"},
     {MathFrexp, "float frexp(float, int *);"},
     {MathLdexp, "float ldexp(float, int);"},
     {MathLog, "float log(float);"},
     {MathLog10, "float log10(float);"},
     {MathModf, "float modf(float, float *);"},
     {MathPow, "float pow(float,float);"},
     {MathRound, "float round(float);"},
     {MathSin, "float sin(float);"},
     {MathSinh, "float sinh(float);"},
     {MathSqrt, "float sqrt(float);"},
     {MathTan,  "float tan(float);"},
     {MathTanh, "float tanh(float);"},
     {NULL,  NULL }
};

/* creates various system-dependent definitions */
void MathSetupFunc(Picoc *pc)
{
    VariableDefinePlatformVar(pc, NULL, "M_E", &pc->FPType,
        (union AnyValue*)&M_EValue, false);
    VariableDefinePlatformVar(pc, NULL, "M_LOG2E", &pc->FPType,
        (union AnyValue*)&M_LOG2EValue, false);
    VariableDefinePlatformVar(pc, NULL, "M_LOG10E", &pc->FPType,
        (union AnyValue*)&M_LOG10EValue, false);
    VariableDefinePlatformVar(pc, NULL, "M_LN2", &pc->FPType,
        (union AnyValue*)&M_LN2Value, false);
    VariableDefinePlatformVar(pc, NULL, "M_LN10", &pc->FPType,
        (union AnyValue*)&M_LN10Value, false);
    VariableDefinePlatformVar(pc, NULL, "M_PI", &pc->FPType,
        (union AnyValue*)&M_PIValue, false);
    VariableDefinePlatformVar(pc, NULL, "M_PI_2", &pc->FPType,
        (union AnyValue*)&M_PI_2Value, false);
    VariableDefinePlatformVar(pc, NULL, "M_PI_4", &pc->FPType,
        (union AnyValue*)&M_PI_4Value, false);
    VariableDefinePlatformVar(pc, NULL, "M_1_PI", &pc->FPType,
        (union AnyValue*)&M_1_PIValue, false);
    VariableDefinePlatformVar(pc, NULL, "M_2_PI", &pc->FPType,
        (union AnyValue*)&M_2_PIValue, false);
    VariableDefinePlatformVar(pc, NULL, "M_2_SQRTPI", &pc->FPType,
        (union AnyValue*)&M_2_SQRTPIValue, false);
    VariableDefinePlatformVar(pc, NULL, "M_SQRT2", &pc->FPType,
        (union AnyValue*)&M_SQRT2Value, false);
    VariableDefinePlatformVar(pc, NULL, "M_SQRT1_2", &pc->FPType,
        (union AnyValue*)&M_SQRT1_2Value, false);
}