X-Git-Url: https://git.sesse.net/?a=blobdiff_plain;f=modules%2Fvisualization%2Fgalaktos%2Fbuiltin_funcs.c;h=af626f9e5df8eeca60435cbc32fa9b962fa882ab;hb=6ee1e193fd896ab9a4729fde14f009d9ce629815;hp=0e3bcef4b9e4e404ed233df2157bc61340e26b98;hpb=3305b049e7f587b23359a1c9047fb5763d19c1dc;p=vlc diff --git a/modules/visualization/galaktos/builtin_funcs.c b/modules/visualization/galaktos/builtin_funcs.c index 0e3bcef4b9..af626f9e5d 100644 --- a/modules/visualization/galaktos/builtin_funcs.c +++ b/modules/visualization/galaktos/builtin_funcs.c @@ -25,8 +25,8 @@ #include /* Values to optimize the sigmoid function */ -#define R 32767 -#define RR 65534 +#define R 32767 +#define RR 65534 inline double int_wrapper(double * arg_list) { @@ -36,57 +36,57 @@ inline double int_wrapper(double * arg_list) { inline double sqr_wrapper(double * arg_list) { - - return pow(2, arg_list[0]); -} - - -inline double sign_wrapper(double * arg_list) { - - return -arg_list[0]; -} + + return pow(2, arg_list[0]); +} + + +inline double sign_wrapper(double * arg_list) { + + return -arg_list[0]; +} inline double min_wrapper(double * arg_list) { - - if (arg_list[0] > arg_list[1]) - return arg_list[1]; - - return arg_list[0]; -} + + if (arg_list[0] > arg_list[1]) + return arg_list[1]; + + return arg_list[0]; +} inline double max_wrapper(double * arg_list) { - if (arg_list[0] > arg_list[1]) - return arg_list[0]; + if (arg_list[0] > arg_list[1]) + return arg_list[0]; - return arg_list[1]; + return arg_list[1]; } /* consult your AI book */ inline double sigmoid_wrapper(double * arg_list) { return (RR / (1 + exp( -(((double)(arg_list[0])) * arg_list[1]) / R) - R)); } - - + + inline double bor_wrapper(double * arg_list) { - return (double)((int)arg_list[0] || (int)arg_list[1]); -} - + return (double)((int)arg_list[0] || (int)arg_list[1]); +} + inline double band_wrapper(double * arg_list) { - return (double)((int)arg_list[0] && (int)arg_list[1]); -} + return (double)((int)arg_list[0] && (int)arg_list[1]); +} inline double bnot_wrapper(double * arg_list) { - return (double)(!(int)arg_list[0]); -} + return (double)(!(int)arg_list[0]); +} inline double if_wrapper(double * arg_list) { - if ((int)arg_list[0] == 0) - return arg_list[2]; - return arg_list[1]; -} + if ((int)arg_list[0] == 0) + return arg_list[2]; + return arg_list[1]; +} inline double rand_wrapper(double * arg_list) { @@ -96,48 +96,48 @@ inline double rand_wrapper(double * arg_list) { l = (double)((rand()) % ((int)arg_list[0])); //printf("VAL: %f\n", l); return l; -} +} inline double equal_wrapper(double * arg_list) { - return (arg_list[0] == arg_list[1]); -} + return (arg_list[0] == arg_list[1]); +} inline double above_wrapper(double * arg_list) { - return (arg_list[0] > arg_list[1]); -} + return (arg_list[0] > arg_list[1]); +} inline double below_wrapper(double * arg_list) { - return (arg_list[0] < arg_list[1]); + return (arg_list[0] < arg_list[1]); } inline double sin_wrapper(double * arg_list) { - return (sin (arg_list[0])); + return (sin (arg_list[0])); } inline double cos_wrapper(double * arg_list) { - return (cos (arg_list[0])); + return (cos (arg_list[0])); } inline double tan_wrapper(double * arg_list) { - return (tan(arg_list[0])); + return (tan(arg_list[0])); } inline double asin_wrapper(double * arg_list) { - return (asin (arg_list[0])); + return (asin (arg_list[0])); } inline double acos_wrapper(double * arg_list) { - return (acos (arg_list[0])); + return (acos (arg_list[0])); } inline double atan_wrapper(double * arg_list) { - return (atan (arg_list[0])); + return (atan (arg_list[0])); } inline double atan2_wrapper(double * arg_list) { @@ -193,9 +193,9 @@ inline double fact_wrapper(double * arg_list) { int result = 1; - + int n = (int)arg_list[0]; - + while (n > 1) { result = result * n; n--;