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-rw-r--r--Build/source/utils/asymptote/runmath.cc248
1 files changed, 125 insertions, 123 deletions
diff --git a/Build/source/utils/asymptote/runmath.cc b/Build/source/utils/asymptote/runmath.cc
index 73854167c49..a7b4291c3ac 100644
--- a/Build/source/utils/asymptote/runmath.cc
+++ b/Build/source/utils/asymptote/runmath.cc
@@ -185,6 +185,7 @@ unsigned long long bitreverse64(unsigned long long a)
((unsigned long long) BitReverseTable8[(a >> 56)]);
}
+#ifndef HAVE_POPCOUNT
// https://graphics.stanford.edu/~seander/bithacks.html#CountBitsSetParallel
#define T unsignedInt
Int popcount(T a)
@@ -195,6 +196,7 @@ Int popcount(T a)
return (T)(a*((T)~(T)0/255)) >> (sizeof(T)-1)*CHAR_BIT;
}
#undef T
+#endif
// Return the factorial of a non-negative integer using a lookup table.
Int factorial(Int n)
@@ -246,233 +248,233 @@ void Srand(Int seed)
#endif
namespace run {
-#line 190 "runmath.in"
+#line 192 "runmath.in"
// real ^(real x, Int y);
void gen_runmath0(stack *Stack)
{
Int y=vm::pop<Int>(Stack);
real x=vm::pop<real>(Stack);
-#line 191 "runmath.in"
+#line 193 "runmath.in"
{Stack->push<real>(pow(x,y)); return;}
}
-#line 195 "runmath.in"
+#line 197 "runmath.in"
// pair ^(pair z, Int y);
void gen_runmath1(stack *Stack)
{
Int y=vm::pop<Int>(Stack);
pair z=vm::pop<pair>(Stack);
-#line 196 "runmath.in"
+#line 198 "runmath.in"
{Stack->push<pair>(pow(z,y)); return;}
}
-#line 200 "runmath.in"
+#line 202 "runmath.in"
// Int quotient(Int x, Int y);
void gen_runmath2(stack *Stack)
{
Int y=vm::pop<Int>(Stack);
Int x=vm::pop<Int>(Stack);
-#line 201 "runmath.in"
+#line 203 "runmath.in"
{Stack->push<Int>(quotient<Int>()(x,y)); return;}
}
-#line 205 "runmath.in"
+#line 207 "runmath.in"
// Int abs(Int x);
void gen_runmath3(stack *Stack)
{
Int x=vm::pop<Int>(Stack);
-#line 206 "runmath.in"
+#line 208 "runmath.in"
{Stack->push<Int>(Abs(x)); return;}
}
-#line 210 "runmath.in"
+#line 212 "runmath.in"
// Int sgn(real x);
void gen_runmath4(stack *Stack)
{
real x=vm::pop<real>(Stack);
-#line 211 "runmath.in"
+#line 213 "runmath.in"
{Stack->push<Int>(sgn(x)); return;}
}
-#line 215 "runmath.in"
+#line 217 "runmath.in"
// Int rand();
void gen_runmath5(stack *Stack)
{
-#line 216 "runmath.in"
+#line 218 "runmath.in"
if(initializeRandom)
Srand(1);
{Stack->push<Int>(random()); return;}
}
-#line 222 "runmath.in"
+#line 224 "runmath.in"
// void srand(Int seed);
void gen_runmath6(stack *Stack)
{
Int seed=vm::pop<Int>(Stack);
-#line 223 "runmath.in"
+#line 225 "runmath.in"
Srand(seed);
}
// a random number uniformly distributed in the interval [0,1]
-#line 228 "runmath.in"
+#line 230 "runmath.in"
// real unitrand();
void gen_runmath7(stack *Stack)
{
-#line 229 "runmath.in"
+#line 231 "runmath.in"
{Stack->push<real>(((real) random())/RANDOM_MAX); return;}
}
-#line 233 "runmath.in"
+#line 235 "runmath.in"
// Int ceil(real x);
void gen_runmath8(stack *Stack)
{
real x=vm::pop<real>(Stack);
-#line 234 "runmath.in"
+#line 236 "runmath.in"
{Stack->push<Int>(Intcast(ceil(x))); return;}
}
-#line 238 "runmath.in"
+#line 240 "runmath.in"
// Int floor(real x);
void gen_runmath9(stack *Stack)
{
real x=vm::pop<real>(Stack);
-#line 239 "runmath.in"
+#line 241 "runmath.in"
{Stack->push<Int>(Intcast(floor(x))); return;}
}
-#line 243 "runmath.in"
+#line 245 "runmath.in"
// Int round(real x);
void gen_runmath10(stack *Stack)
{
real x=vm::pop<real>(Stack);
-#line 244 "runmath.in"
+#line 246 "runmath.in"
if(validInt(x)) {Stack->push<Int>(Round(x)); return;}
integeroverflow(0);
}
-#line 249 "runmath.in"
+#line 251 "runmath.in"
// Int Ceil(real x);
void gen_runmath11(stack *Stack)
{
real x=vm::pop<real>(Stack);
-#line 250 "runmath.in"
+#line 252 "runmath.in"
{Stack->push<Int>(Ceil(x)); return;}
}
-#line 254 "runmath.in"
+#line 256 "runmath.in"
// Int Floor(real x);
void gen_runmath12(stack *Stack)
{
real x=vm::pop<real>(Stack);
-#line 255 "runmath.in"
+#line 257 "runmath.in"
{Stack->push<Int>(Floor(x)); return;}
}
-#line 259 "runmath.in"
+#line 261 "runmath.in"
// Int Round(real x);
void gen_runmath13(stack *Stack)
{
real x=vm::pop<real>(Stack);
-#line 260 "runmath.in"
+#line 262 "runmath.in"
{Stack->push<Int>(Round(Intcap(x))); return;}
}
-#line 264 "runmath.in"
+#line 266 "runmath.in"
// real fmod(real x, real y);
void gen_runmath14(stack *Stack)
{
real y=vm::pop<real>(Stack);
real x=vm::pop<real>(Stack);
-#line 265 "runmath.in"
+#line 267 "runmath.in"
if (y == 0.0) dividebyzero();
{Stack->push<real>(fmod(x,y)); return;}
}
-#line 270 "runmath.in"
+#line 272 "runmath.in"
// real atan2(real y, real x);
void gen_runmath15(stack *Stack)
{
real x=vm::pop<real>(Stack);
real y=vm::pop<real>(Stack);
-#line 271 "runmath.in"
+#line 273 "runmath.in"
{Stack->push<real>(atan2(y,x)); return;}
}
-#line 275 "runmath.in"
+#line 277 "runmath.in"
// real hypot(real x, real y);
void gen_runmath16(stack *Stack)
{
real y=vm::pop<real>(Stack);
real x=vm::pop<real>(Stack);
-#line 276 "runmath.in"
+#line 278 "runmath.in"
{Stack->push<real>(hypot(x,y)); return;}
}
-#line 280 "runmath.in"
+#line 282 "runmath.in"
// real remainder(real x, real y);
void gen_runmath17(stack *Stack)
{
real y=vm::pop<real>(Stack);
real x=vm::pop<real>(Stack);
-#line 281 "runmath.in"
+#line 283 "runmath.in"
{Stack->push<real>(remainder(x,y)); return;}
}
-#line 285 "runmath.in"
+#line 287 "runmath.in"
// real Jn(Int n, real x);
void gen_runmath18(stack *Stack)
{
real x=vm::pop<real>(Stack);
Int n=vm::pop<Int>(Stack);
-#line 286 "runmath.in"
+#line 288 "runmath.in"
{Stack->push<real>(jn(n,x)); return;}
}
-#line 290 "runmath.in"
+#line 292 "runmath.in"
// real Yn(Int n, real x);
void gen_runmath19(stack *Stack)
{
real x=vm::pop<real>(Stack);
Int n=vm::pop<Int>(Stack);
-#line 291 "runmath.in"
+#line 293 "runmath.in"
{Stack->push<real>(yn(n,x)); return;}
}
-#line 295 "runmath.in"
+#line 297 "runmath.in"
// real erf(real x);
void gen_runmath20(stack *Stack)
{
real x=vm::pop<real>(Stack);
-#line 296 "runmath.in"
+#line 298 "runmath.in"
{Stack->push<real>(erf(x)); return;}
}
-#line 300 "runmath.in"
+#line 302 "runmath.in"
// real erfc(real x);
void gen_runmath21(stack *Stack)
{
real x=vm::pop<real>(Stack);
-#line 301 "runmath.in"
+#line 303 "runmath.in"
{Stack->push<real>(erfc(x)); return;}
}
-#line 305 "runmath.in"
+#line 307 "runmath.in"
// Int factorial(Int n);
void gen_runmath22(stack *Stack)
{
Int n=vm::pop<Int>(Stack);
-#line 306 "runmath.in"
+#line 308 "runmath.in"
if(n < 0) error(invalidargument);
{Stack->push<Int>(factorial(n)); return;}
}
-#line 310 "runmath.in"
+#line 312 "runmath.in"
// Int choose(Int n, Int k);
void gen_runmath23(stack *Stack)
{
Int k=vm::pop<Int>(Stack);
Int n=vm::pop<Int>(Stack);
-#line 311 "runmath.in"
+#line 313 "runmath.in"
if(n < 0 || k < 0 || k > n) error(invalidargument);
Int f=1;
Int r=n-k;
@@ -483,12 +485,12 @@ void gen_runmath23(stack *Stack)
{Stack->push<Int>(f); return;}
}
-#line 321 "runmath.in"
+#line 323 "runmath.in"
// real gamma(real x);
void gen_runmath24(stack *Stack)
{
real x=vm::pop<real>(Stack);
-#line 322 "runmath.in"
+#line 324 "runmath.in"
#ifdef HAVE_TGAMMA
{Stack->push<real>(tgamma(x)); return;}
#else
@@ -497,14 +499,14 @@ void gen_runmath24(stack *Stack)
#endif
}
-#line 331 "runmath.in"
+#line 333 "runmath.in"
// realarray* quadraticroots(real a, real b, real c);
void gen_runmath25(stack *Stack)
{
real c=vm::pop<real>(Stack);
real b=vm::pop<real>(Stack);
real a=vm::pop<real>(Stack);
-#line 332 "runmath.in"
+#line 334 "runmath.in"
quadraticroots q(a,b,c);
array *roots=new array(q.roots);
if(q.roots >= 1) (*roots)[0]=q.t1;
@@ -512,14 +514,14 @@ void gen_runmath25(stack *Stack)
{Stack->push<realarray*>(roots); return;}
}
-#line 340 "runmath.in"
+#line 342 "runmath.in"
// pairarray* quadraticroots(explicit pair a, explicit pair b, explicit pair c);
void gen_runmath26(stack *Stack)
{
pair c=vm::pop<pair>(Stack);
pair b=vm::pop<pair>(Stack);
pair a=vm::pop<pair>(Stack);
-#line 341 "runmath.in"
+#line 343 "runmath.in"
Quadraticroots q(a,b,c);
array *roots=new array(q.roots);
if(q.roots >= 1) (*roots)[0]=q.z1;
@@ -527,7 +529,7 @@ void gen_runmath26(stack *Stack)
{Stack->push<pairarray*>(roots); return;}
}
-#line 349 "runmath.in"
+#line 351 "runmath.in"
// realarray* cubicroots(real a, real b, real c, real d);
void gen_runmath27(stack *Stack)
{
@@ -535,7 +537,7 @@ void gen_runmath27(stack *Stack)
real c=vm::pop<real>(Stack);
real b=vm::pop<real>(Stack);
real a=vm::pop<real>(Stack);
-#line 350 "runmath.in"
+#line 352 "runmath.in"
cubicroots q(a,b,c,d);
array *roots=new array(q.roots);
if(q.roots >= 1) (*roots)[0]=q.t1;
@@ -546,98 +548,98 @@ void gen_runmath27(stack *Stack)
// Logical operations
-#line 361 "runmath.in"
+#line 363 "runmath.in"
// bool !(bool b);
void gen_runmath28(stack *Stack)
{
bool b=vm::pop<bool>(Stack);
-#line 362 "runmath.in"
+#line 364 "runmath.in"
{Stack->push<bool>(!b); return;}
}
-#line 367 "runmath.in"
+#line 369 "runmath.in"
void boolMemEq(stack *Stack)
{
frame * b=vm::pop<frame *>(Stack);
frame * a=vm::pop<frame *>(Stack);
-#line 368 "runmath.in"
+#line 370 "runmath.in"
{Stack->push<bool>(a == b); return;}
}
-#line 372 "runmath.in"
+#line 374 "runmath.in"
void boolMemNeq(stack *Stack)
{
frame * b=vm::pop<frame *>(Stack);
frame * a=vm::pop<frame *>(Stack);
-#line 373 "runmath.in"
+#line 375 "runmath.in"
{Stack->push<bool>(a != b); return;}
}
-#line 377 "runmath.in"
+#line 379 "runmath.in"
void boolFuncEq(stack *Stack)
{
callable * b=vm::pop<callable *>(Stack);
callable * a=vm::pop<callable *>(Stack);
-#line 378 "runmath.in"
+#line 380 "runmath.in"
{Stack->push<bool>(a->compare(b)); return;}
}
-#line 382 "runmath.in"
+#line 384 "runmath.in"
void boolFuncNeq(stack *Stack)
{
callable * b=vm::pop<callable *>(Stack);
callable * a=vm::pop<callable *>(Stack);
-#line 383 "runmath.in"
+#line 385 "runmath.in"
{Stack->push<bool>(!(a->compare(b))); return;}
}
// Bit operations
-#line 389 "runmath.in"
+#line 391 "runmath.in"
// Int AND(Int a, Int b);
void gen_runmath33(stack *Stack)
{
Int b=vm::pop<Int>(Stack);
Int a=vm::pop<Int>(Stack);
-#line 390 "runmath.in"
+#line 392 "runmath.in"
{Stack->push<Int>(a & b); return;}
}
-#line 395 "runmath.in"
+#line 397 "runmath.in"
// Int OR(Int a, Int b);
void gen_runmath34(stack *Stack)
{
Int b=vm::pop<Int>(Stack);
Int a=vm::pop<Int>(Stack);
-#line 396 "runmath.in"
+#line 398 "runmath.in"
{Stack->push<Int>(a | b); return;}
}
-#line 400 "runmath.in"
+#line 402 "runmath.in"
// Int XOR(Int a, Int b);
void gen_runmath35(stack *Stack)
{
Int b=vm::pop<Int>(Stack);
Int a=vm::pop<Int>(Stack);
-#line 401 "runmath.in"
+#line 403 "runmath.in"
{Stack->push<Int>(a ^ b); return;}
}
-#line 405 "runmath.in"
+#line 407 "runmath.in"
// Int NOT(Int a);
void gen_runmath36(stack *Stack)
{
Int a=vm::pop<Int>(Stack);
-#line 406 "runmath.in"
+#line 408 "runmath.in"
{Stack->push<Int>(~a); return;}
}
-#line 410 "runmath.in"
+#line 412 "runmath.in"
// Int CLZ(Int a);
void gen_runmath37(stack *Stack)
{
Int a=vm::pop<Int>(Stack);
-#line 411 "runmath.in"
+#line 413 "runmath.in"
if((unsigned long long) a > 0xFFFFFFFF)
{Stack->push<Int>(CLZ((uint32_t) ((unsigned long long) a >> 32))); return;}
else {
@@ -647,32 +649,32 @@ void gen_runmath37(stack *Stack)
}
}
-#line 421 "runmath.in"
+#line 423 "runmath.in"
// Int popcount(Int a);
void gen_runmath38(stack *Stack)
{
Int a=vm::pop<Int>(Stack);
-#line 422 "runmath.in"
+#line 424 "runmath.in"
{Stack->push<Int>(popcount(a)); return;}
}
-#line 426 "runmath.in"
+#line 428 "runmath.in"
// Int CTZ(Int a);
void gen_runmath39(stack *Stack)
{
Int a=vm::pop<Int>(Stack);
-#line 427 "runmath.in"
+#line 429 "runmath.in"
{Stack->push<Int>(popcount((a&-a)-1)); return;}
}
// bitreverse a within a word of length bits.
-#line 432 "runmath.in"
+#line 434 "runmath.in"
// Int bitreverse(Int a, Int bits);
void gen_runmath40(stack *Stack)
{
Int bits=vm::pop<Int>(Stack);
Int a=vm::pop<Int>(Stack);
-#line 433 "runmath.in"
+#line 435 "runmath.in"
typedef unsigned long long Bitreverse(unsigned long long a);
static Bitreverse *B[]={bitreverse8,bitreverse16,bitreverse24,bitreverse32,
bitreverse40,bitreverse48,bitreverse56,bitreverse64};
@@ -693,87 +695,87 @@ namespace trans {
void gen_runmath_venv(venv &ve)
{
-#line 190 "runmath.in"
+#line 192 "runmath.in"
addFunc(ve, run::gen_runmath0, primReal(), SYM_CARET, formal(primReal(), SYM(x), false, false), formal(primInt(), SYM(y), false, false));
-#line 195 "runmath.in"
+#line 197 "runmath.in"
addFunc(ve, run::gen_runmath1, primPair(), SYM_CARET, formal(primPair(), SYM(z), false, false), formal(primInt(), SYM(y), false, false));
-#line 200 "runmath.in"
+#line 202 "runmath.in"
addFunc(ve, run::gen_runmath2, primInt(), SYM(quotient), formal(primInt(), SYM(x), false, false), formal(primInt(), SYM(y), false, false));
-#line 205 "runmath.in"
+#line 207 "runmath.in"
addFunc(ve, run::gen_runmath3, primInt(), SYM(abs), formal(primInt(), SYM(x), false, false));
-#line 210 "runmath.in"
+#line 212 "runmath.in"
addFunc(ve, run::gen_runmath4, primInt(), SYM(sgn), formal(primReal(), SYM(x), false, false));
-#line 215 "runmath.in"
+#line 217 "runmath.in"
addFunc(ve, run::gen_runmath5, primInt(), SYM(rand));
-#line 222 "runmath.in"
+#line 224 "runmath.in"
addFunc(ve, run::gen_runmath6, primVoid(), SYM(srand), formal(primInt(), SYM(seed), false, false));
-#line 227 "runmath.in"
+#line 229 "runmath.in"
addFunc(ve, run::gen_runmath7, primReal(), SYM(unitrand));
-#line 233 "runmath.in"
+#line 235 "runmath.in"
addFunc(ve, run::gen_runmath8, primInt(), SYM(ceil), formal(primReal(), SYM(x), false, false));
-#line 238 "runmath.in"
+#line 240 "runmath.in"
addFunc(ve, run::gen_runmath9, primInt(), SYM(floor), formal(primReal(), SYM(x), false, false));
-#line 243 "runmath.in"
+#line 245 "runmath.in"
addFunc(ve, run::gen_runmath10, primInt(), SYM(round), formal(primReal(), SYM(x), false, false));
-#line 249 "runmath.in"
+#line 251 "runmath.in"
addFunc(ve, run::gen_runmath11, primInt(), SYM(Ceil), formal(primReal(), SYM(x), false, false));
-#line 254 "runmath.in"
+#line 256 "runmath.in"
addFunc(ve, run::gen_runmath12, primInt(), SYM(Floor), formal(primReal(), SYM(x), false, false));
-#line 259 "runmath.in"
+#line 261 "runmath.in"
addFunc(ve, run::gen_runmath13, primInt(), SYM(Round), formal(primReal(), SYM(x), false, false));
-#line 264 "runmath.in"
+#line 266 "runmath.in"
addFunc(ve, run::gen_runmath14, primReal(), SYM(fmod), formal(primReal(), SYM(x), false, false), formal(primReal(), SYM(y), false, false));
-#line 270 "runmath.in"
+#line 272 "runmath.in"
addFunc(ve, run::gen_runmath15, primReal(), SYM(atan2), formal(primReal(), SYM(y), false, false), formal(primReal(), SYM(x), false, false));
-#line 275 "runmath.in"
+#line 277 "runmath.in"
addFunc(ve, run::gen_runmath16, primReal(), SYM(hypot), formal(primReal(), SYM(x), false, false), formal(primReal(), SYM(y), false, false));
-#line 280 "runmath.in"
+#line 282 "runmath.in"
addFunc(ve, run::gen_runmath17, primReal(), SYM(remainder), formal(primReal(), SYM(x), false, false), formal(primReal(), SYM(y), false, false));
-#line 285 "runmath.in"
+#line 287 "runmath.in"
addFunc(ve, run::gen_runmath18, primReal(), SYM(Jn), formal(primInt(), SYM(n), false, false), formal(primReal(), SYM(x), false, false));
-#line 290 "runmath.in"
+#line 292 "runmath.in"
addFunc(ve, run::gen_runmath19, primReal(), SYM(Yn), formal(primInt(), SYM(n), false, false), formal(primReal(), SYM(x), false, false));
-#line 295 "runmath.in"
+#line 297 "runmath.in"
addFunc(ve, run::gen_runmath20, primReal(), SYM(erf), formal(primReal(), SYM(x), false, false));
-#line 300 "runmath.in"
+#line 302 "runmath.in"
addFunc(ve, run::gen_runmath21, primReal(), SYM(erfc), formal(primReal(), SYM(x), false, false));
-#line 305 "runmath.in"
+#line 307 "runmath.in"
addFunc(ve, run::gen_runmath22, primInt(), SYM(factorial), formal(primInt(), SYM(n), false, false));
-#line 310 "runmath.in"
+#line 312 "runmath.in"
addFunc(ve, run::gen_runmath23, primInt(), SYM(choose), formal(primInt(), SYM(n), false, false), formal(primInt(), SYM(k), false, false));
-#line 321 "runmath.in"
+#line 323 "runmath.in"
addFunc(ve, run::gen_runmath24, primReal(), SYM(gamma), formal(primReal(), SYM(x), false, false));
-#line 331 "runmath.in"
+#line 333 "runmath.in"
addFunc(ve, run::gen_runmath25, realArray(), SYM(quadraticroots), formal(primReal(), SYM(a), false, false), formal(primReal(), SYM(b), false, false), formal(primReal(), SYM(c), false, false));
-#line 340 "runmath.in"
+#line 342 "runmath.in"
addFunc(ve, run::gen_runmath26, pairArray(), SYM(quadraticroots), formal(primPair(), SYM(a), false, true), formal(primPair(), SYM(b), false, true), formal(primPair(), SYM(c), false, true));
-#line 349 "runmath.in"
+#line 351 "runmath.in"
addFunc(ve, run::gen_runmath27, realArray(), SYM(cubicroots), formal(primReal(), SYM(a), false, false), formal(primReal(), SYM(b), false, false), formal(primReal(), SYM(c), false, false), formal(primReal(), SYM(d), false, false));
-#line 359 "runmath.in"
+#line 361 "runmath.in"
addFunc(ve, run::gen_runmath28, primBoolean(), SYM_LOGNOT, formal(primBoolean(), SYM(b), false, false));
-#line 367 "runmath.in"
+#line 369 "runmath.in"
REGISTER_BLTIN(run::boolMemEq,"boolMemEq");
-#line 372 "runmath.in"
+#line 374 "runmath.in"
REGISTER_BLTIN(run::boolMemNeq,"boolMemNeq");
-#line 377 "runmath.in"
+#line 379 "runmath.in"
REGISTER_BLTIN(run::boolFuncEq,"boolFuncEq");
-#line 382 "runmath.in"
+#line 384 "runmath.in"
REGISTER_BLTIN(run::boolFuncNeq,"boolFuncNeq");
-#line 387 "runmath.in"
+#line 389 "runmath.in"
addFunc(ve, run::gen_runmath33, primInt(), SYM(AND), formal(primInt(), SYM(a), false, false), formal(primInt(), SYM(b), false, false));
-#line 395 "runmath.in"
+#line 397 "runmath.in"
addFunc(ve, run::gen_runmath34, primInt(), SYM(OR), formal(primInt(), SYM(a), false, false), formal(primInt(), SYM(b), false, false));
-#line 400 "runmath.in"
+#line 402 "runmath.in"
addFunc(ve, run::gen_runmath35, primInt(), SYM(XOR), formal(primInt(), SYM(a), false, false), formal(primInt(), SYM(b), false, false));
-#line 405 "runmath.in"
+#line 407 "runmath.in"
addFunc(ve, run::gen_runmath36, primInt(), SYM(NOT), formal(primInt(), SYM(a), false, false));
-#line 410 "runmath.in"
+#line 412 "runmath.in"
addFunc(ve, run::gen_runmath37, primInt(), SYM(CLZ), formal(primInt(), SYM(a), false, false));
-#line 421 "runmath.in"
+#line 423 "runmath.in"
addFunc(ve, run::gen_runmath38, primInt(), SYM(popcount), formal(primInt(), SYM(a), false, false));
-#line 426 "runmath.in"
+#line 428 "runmath.in"
addFunc(ve, run::gen_runmath39, primInt(), SYM(CTZ), formal(primInt(), SYM(a), false, false));
-#line 431 "runmath.in"
+#line 433 "runmath.in"
addFunc(ve, run::gen_runmath40, primInt(), SYM(bitreverse), formal(primInt(), SYM(a), false, false), formal(primInt(), SYM(bits), false, false));
}