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py: Change obsolete "///" comment formatting to normal comments.

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This comment style is no longer used because the docs are written by hand,
not generated.
This commit is contained in:
Damien George
2017-08-30 21:02:00 +10:00
parent 71c9cfb028
commit 0102ee092b
4 changed files with 55 additions and 95 deletions
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86
py/modmath.c
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@@ -35,11 +35,6 @@
// And by defining our own we can ensure it uses the correct const format.
#define MP_PI MICROPY_FLOAT_CONST(3.14159265358979323846)
/// \module math - mathematical functions
///
/// The `math` module provides some basic mathematical funtions for
/// working with floating-point numbers.
STATIC NORETURN void math_error(void) {
mp_raise_ValueError("math domain error");
}
@@ -75,80 +70,74 @@ STATIC NORETURN void math_error(void) {
#define log2(x) (log(x) * 1.442695040888963407354163704)
#endif
/// \function sqrt(x)
/// Returns the square root of `x`.
// sqrt(x): returns the square root of x
MATH_FUN_1_ERRCOND(sqrt, sqrt, (x < (mp_float_t)0.0))
/// \function pow(x, y)
/// Returns `x` to the power of `y`.
// pow(x, y): returns x to the power of y
MATH_FUN_2(pow, pow)
/// \function exp(x)
// exp(x)
MATH_FUN_1(exp, exp)
#if MICROPY_PY_MATH_SPECIAL_FUNCTIONS
/// \function expm1(x)
// expm1(x)
MATH_FUN_1(expm1, expm1)
/// \function log2(x)
// log2(x)
MATH_FUN_1_ERRCOND(log2, log2, (x <= (mp_float_t)0.0))
/// \function log10(x)
// log10(x)
MATH_FUN_1_ERRCOND(log10, log10, (x <= (mp_float_t)0.0))
/// \function cosh(x)
// cosh(x)
MATH_FUN_1(cosh, cosh)
/// \function sinh(x)
// sinh(x)
MATH_FUN_1(sinh, sinh)
/// \function tanh(x)
// tanh(x)
MATH_FUN_1(tanh, tanh)
/// \function acosh(x)
// acosh(x)
MATH_FUN_1(acosh, acosh)
/// \function asinh(x)
// asinh(x)
MATH_FUN_1(asinh, asinh)
/// \function atanh(x)
// atanh(x)
MATH_FUN_1(atanh, atanh)
#endif
/// \function cos(x)
// cos(x)
MATH_FUN_1(cos, cos)
/// \function sin(x)
// sin(x)
MATH_FUN_1(sin, sin)
/// \function tan(x)
// tan(x)
MATH_FUN_1(tan, tan)
/// \function acos(x)
// acos(x)
MATH_FUN_1(acos, acos)
/// \function asin(x)
// asin(x)
MATH_FUN_1(asin, asin)
/// \function atan(x)
// atan(x)
MATH_FUN_1(atan, atan)
/// \function atan2(y, x)
// atan2(y, x)
MATH_FUN_2(atan2, atan2)
/// \function ceil(x)
// ceil(x)
MATH_FUN_1_TO_INT(ceil, ceil)
/// \function copysign(x, y)
// copysign(x, y)
MATH_FUN_2(copysign, copysign)
/// \function fabs(x)
// fabs(x)
MATH_FUN_1(fabs, fabs)
/// \function floor(x)
// floor(x)
MATH_FUN_1_TO_INT(floor, floor) //TODO: delegate to x.__floor__() if x is not a float
/// \function fmod(x, y)
// fmod(x, y)
MATH_FUN_2(fmod, fmod)
/// \function isfinite(x)
// isfinite(x)
MATH_FUN_1_TO_BOOL(isfinite, isfinite)
/// \function isinf(x)
// isinf(x)
MATH_FUN_1_TO_BOOL(isinf, isinf)
/// \function isnan(x)
// isnan(x)
MATH_FUN_1_TO_BOOL(isnan, isnan)
/// \function trunc(x)
// trunc(x)
MATH_FUN_1_TO_INT(trunc, trunc)
/// \function ldexp(x, exp)
// ldexp(x, exp)
MATH_FUN_2(ldexp, ldexp)
#if MICROPY_PY_MATH_SPECIAL_FUNCTIONS
/// \function erf(x)
/// Return the error function of `x`.
// erf(x): return the error function of x
MATH_FUN_1(erf, erf)
/// \function erfc(x)
/// Return the complementary error function of `x`.
// erfc(x): return the complementary error function of x
MATH_FUN_1(erfc, erfc)
/// \function gamma(x)
/// Return the gamma function of `x`.
// gamma(x): return the gamma function of x
MATH_FUN_1(gamma, tgamma)
/// \function lgamma(x)
/// return the natural logarithm of the gamma function of `x`.
// lgamma(x): return the natural logarithm of the gamma function of x
MATH_FUN_1(lgamma, lgamma)
#endif
//TODO: factorial, fsum
@@ -178,8 +167,7 @@ STATIC MP_DEFINE_CONST_FUN_OBJ_VAR_BETWEEN(mp_math_log_obj, 1, 2, mp_math_log);
// Functions that return a tuple
/// \function frexp(x)
/// Converts a floating-point number to fractional and integral components.
// frexp(x): converts a floating-point number to fractional and integral components
STATIC mp_obj_t mp_math_frexp(mp_obj_t x_obj) {
int int_exponent = 0;
mp_float_t significand = MICROPY_FLOAT_C_FUN(frexp)(mp_obj_get_float(x_obj), &int_exponent);
@@ -190,7 +178,7 @@ STATIC mp_obj_t mp_math_frexp(mp_obj_t x_obj) {
}
STATIC MP_DEFINE_CONST_FUN_OBJ_1(mp_math_frexp_obj, mp_math_frexp);
/// \function modf(x)
// modf(x)
STATIC mp_obj_t mp_math_modf(mp_obj_t x_obj) {
mp_float_t int_part = 0.0;
mp_float_t fractional_part = MICROPY_FLOAT_C_FUN(modf)(mp_obj_get_float(x_obj), &int_part);
@@ -203,13 +191,13 @@ STATIC MP_DEFINE_CONST_FUN_OBJ_1(mp_math_modf_obj, mp_math_modf);
// Angular conversions
/// \function radians(x)
// radians(x)
STATIC mp_obj_t mp_math_radians(mp_obj_t x_obj) {
return mp_obj_new_float(mp_obj_get_float(x_obj) * (MP_PI / MICROPY_FLOAT_CONST(180.0)));
}
STATIC MP_DEFINE_CONST_FUN_OBJ_1(mp_math_radians_obj, mp_math_radians);
/// \function degrees(x)
// degrees(x)
STATIC mp_obj_t mp_math_degrees(mp_obj_t x_obj) {
return mp_obj_new_float(mp_obj_get_float(x_obj) * (MICROPY_FLOAT_CONST(180.0) / MP_PI));
}