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Diffstat (limited to 'Build/source/utils/asymptote/runpath.cc')
-rw-r--r-- | Build/source/utils/asymptote/runpath.cc | 698 |
1 files changed, 698 insertions, 0 deletions
diff --git a/Build/source/utils/asymptote/runpath.cc b/Build/source/utils/asymptote/runpath.cc new file mode 100644 index 00000000000..a37a77c58fa --- /dev/null +++ b/Build/source/utils/asymptote/runpath.cc @@ -0,0 +1,698 @@ +/***** Autogenerated from runpath.in; changes will be overwritten *****/ + +#line 1 "runtimebase.in" +/***** + * runtimebase.in + * Andy Hammerlindl 2009/07/28 + * + * Common declarations needed for all code-generating .in files. + * + *****/ + + +#line 1 "runpath.in" +/***** + * runpicture.in + * + * Runtime functions for picture operations. + * + *****/ + +#line 1 "runtimebase.in" +#include "stack.h" +#include "types.h" +#include "builtin.h" +#include "entry.h" +#include "errormsg.h" +#include "array.h" +#include "triple.h" +#include "callable.h" + +using vm::stack; +using vm::error; +using vm::array; +using vm::callable; +using types::formal; +using types::function; +using camp::triple; + +#define PRIMITIVE(name,Name,asyName) using types::prim##Name; +#include <primitives.h> +#undef PRIMITIVE + +typedef double real; + +void unused(void *); + +namespace run { +array *copyArray(array *a); +array *copyArray2(array *a); +array *copyArray3(array *a); + +double *copyArrayC(const array *a, size_t dim=0); +double *copyArray2C(const array *a, bool square=true, size_t dim2=0); + +triple *copyTripleArrayC(const array *a, size_t dim=0); +triple *copyTripleArray2C(const array *a, bool square=true, size_t dim2=0); +double *copyTripleArray2Components(array *a, bool square=true, size_t dim2=0); +} + +function *realRealFunction(); + +// Return the component of vector v perpendicular to a unit vector u. +inline triple perp(triple v, triple u) +{ + return v-dot(v,u)*u; +} + +#define CURRENTPEN processData().currentpen + +#line 16 "runpath.in" +#include "path.h" +#include "arrayop.h" +#include "predicates.h" + +using namespace camp; +using namespace vm; + +typedef array realarray; +typedef array realarray2; +typedef array patharray; + +using types::realArray; +using types::realArray2; +using types::pathArray; + +Int windingnumber(array *p, camp::pair z) +{ + size_t size=checkArray(p); + Int count=0; + for(size_t i=0; i < size; i++) + count += read<path *>(p,i)->windingnumber(z); + return count; +} + +// Autogenerated routines: + + + +namespace run { +#line 43 "runpath.in" +void nullPath(stack *Stack) +{ +#line 44 "runpath.in" + {Stack->push<path>(nullpath); return;} +} + +#line 48 "runpath.in" +// bool ==(path a, path b); +void gen_runpath1(stack *Stack) +{ + path b=vm::pop<path>(Stack); + path a=vm::pop<path>(Stack); +#line 49 "runpath.in" + {Stack->push<bool>(a == b); return;} +} + +#line 53 "runpath.in" +// bool !=(path a, path b); +void gen_runpath2(stack *Stack) +{ + path b=vm::pop<path>(Stack); + path a=vm::pop<path>(Stack); +#line 54 "runpath.in" + {Stack->push<bool>(!(a == b)); return;} +} + +#line 58 "runpath.in" +// pair point(path p, Int t); +void gen_runpath3(stack *Stack) +{ + Int t=vm::pop<Int>(Stack); + path p=vm::pop<path>(Stack); +#line 59 "runpath.in" + {Stack->push<pair>(p.point((Int) t)); return;} +} + +#line 63 "runpath.in" +// pair point(path p, real t); +void gen_runpath4(stack *Stack) +{ + real t=vm::pop<real>(Stack); + path p=vm::pop<path>(Stack); +#line 64 "runpath.in" + {Stack->push<pair>(p.point(t)); return;} +} + +#line 68 "runpath.in" +// pair precontrol(path p, Int t); +void gen_runpath5(stack *Stack) +{ + Int t=vm::pop<Int>(Stack); + path p=vm::pop<path>(Stack); +#line 69 "runpath.in" + {Stack->push<pair>(p.precontrol((Int) t)); return;} +} + +#line 73 "runpath.in" +// pair precontrol(path p, real t); +void gen_runpath6(stack *Stack) +{ + real t=vm::pop<real>(Stack); + path p=vm::pop<path>(Stack); +#line 74 "runpath.in" + {Stack->push<pair>(p.precontrol(t)); return;} +} + +#line 78 "runpath.in" +// pair postcontrol(path p, Int t); +void gen_runpath7(stack *Stack) +{ + Int t=vm::pop<Int>(Stack); + path p=vm::pop<path>(Stack); +#line 79 "runpath.in" + {Stack->push<pair>(p.postcontrol((Int) t)); return;} +} + +#line 83 "runpath.in" +// pair postcontrol(path p, real t); +void gen_runpath8(stack *Stack) +{ + real t=vm::pop<real>(Stack); + path p=vm::pop<path>(Stack); +#line 84 "runpath.in" + {Stack->push<pair>(p.postcontrol(t)); return;} +} + +#line 88 "runpath.in" +// pair dir(path p, Int t, Int sign=0, bool normalize=true); +void gen_runpath9(stack *Stack) +{ + bool normalize=vm::pop<bool>(Stack,true); + Int sign=vm::pop<Int>(Stack,0); + Int t=vm::pop<Int>(Stack); + path p=vm::pop<path>(Stack); +#line 89 "runpath.in" + {Stack->push<pair>(p.dir(t,sign,normalize)); return;} +} + +#line 93 "runpath.in" +// pair dir(path p, real t, bool normalize=true); +void gen_runpath10(stack *Stack) +{ + bool normalize=vm::pop<bool>(Stack,true); + real t=vm::pop<real>(Stack); + path p=vm::pop<path>(Stack); +#line 94 "runpath.in" + {Stack->push<pair>(p.dir(t,normalize)); return;} +} + +#line 98 "runpath.in" +// pair accel(path p, Int t, Int sign=0); +void gen_runpath11(stack *Stack) +{ + Int sign=vm::pop<Int>(Stack,0); + Int t=vm::pop<Int>(Stack); + path p=vm::pop<path>(Stack); +#line 99 "runpath.in" + {Stack->push<pair>(p.accel(t,sign)); return;} +} + +#line 103 "runpath.in" +// pair accel(path p, real t); +void gen_runpath12(stack *Stack) +{ + real t=vm::pop<real>(Stack); + path p=vm::pop<path>(Stack); +#line 104 "runpath.in" + {Stack->push<pair>(p.accel(t)); return;} +} + +#line 108 "runpath.in" +// real radius(path p, real t); +void gen_runpath13(stack *Stack) +{ + real t=vm::pop<real>(Stack); + path p=vm::pop<path>(Stack); +#line 109 "runpath.in" + pair v=p.dir(t,false); + pair a=p.accel(t); + real d=dot(a,v); + real v2=v.abs2(); + real a2=a.abs2(); + real denom=v2*a2-d*d; + real r=v2*sqrt(v2); + {Stack->push<real>(denom > 0 ? r/sqrt(denom) : 0.0); return;} +} + +#line 120 "runpath.in" +// path reverse(path p); +void gen_runpath14(stack *Stack) +{ + path p=vm::pop<path>(Stack); +#line 121 "runpath.in" + {Stack->push<path>(p.reverse()); return;} +} + +#line 125 "runpath.in" +// path subpath(path p, Int a, Int b); +void gen_runpath15(stack *Stack) +{ + Int b=vm::pop<Int>(Stack); + Int a=vm::pop<Int>(Stack); + path p=vm::pop<path>(Stack); +#line 126 "runpath.in" + {Stack->push<path>(p.subpath((Int) a, (Int) b)); return;} +} + +#line 130 "runpath.in" +// path subpath(path p, real a, real b); +void gen_runpath16(stack *Stack) +{ + real b=vm::pop<real>(Stack); + real a=vm::pop<real>(Stack); + path p=vm::pop<path>(Stack); +#line 131 "runpath.in" + {Stack->push<path>(p.subpath(a,b)); return;} +} + +#line 135 "runpath.in" +// path nurb(pair z0, pair z1, pair z2, pair z3, real w0, real w1, real w2, real w3, Int m); +void gen_runpath17(stack *Stack) +{ + Int m=vm::pop<Int>(Stack); + real w3=vm::pop<real>(Stack); + real w2=vm::pop<real>(Stack); + real w1=vm::pop<real>(Stack); + real w0=vm::pop<real>(Stack); + pair z3=vm::pop<pair>(Stack); + pair z2=vm::pop<pair>(Stack); + pair z1=vm::pop<pair>(Stack); + pair z0=vm::pop<pair>(Stack); +#line 137 "runpath.in" + {Stack->push<path>(nurb(z0,z1,z2,z3,w0,w1,w2,w3,m)); return;} +} + +#line 141 "runpath.in" +// Int length(path p); +void gen_runpath18(stack *Stack) +{ + path p=vm::pop<path>(Stack); +#line 142 "runpath.in" + {Stack->push<Int>(p.length()); return;} +} + +#line 146 "runpath.in" +// bool cyclic(path p); +void gen_runpath19(stack *Stack) +{ + path p=vm::pop<path>(Stack); +#line 147 "runpath.in" + {Stack->push<bool>(p.cyclic()); return;} +} + +#line 151 "runpath.in" +// bool straight(path p, Int t); +void gen_runpath20(stack *Stack) +{ + Int t=vm::pop<Int>(Stack); + path p=vm::pop<path>(Stack); +#line 152 "runpath.in" + {Stack->push<bool>(p.straight(t)); return;} +} + +#line 156 "runpath.in" +// path unstraighten(path p); +void gen_runpath21(stack *Stack) +{ + path p=vm::pop<path>(Stack); +#line 157 "runpath.in" + {Stack->push<path>(p.unstraighten()); return;} +} + +#line 161 "runpath.in" +// bool piecewisestraight(path p); +void gen_runpath22(stack *Stack) +{ + path p=vm::pop<path>(Stack); +#line 162 "runpath.in" + {Stack->push<bool>(p.piecewisestraight()); return;} +} + +#line 166 "runpath.in" +// real arclength(path p); +void gen_runpath23(stack *Stack) +{ + path p=vm::pop<path>(Stack); +#line 167 "runpath.in" + {Stack->push<real>(p.arclength()); return;} +} + +#line 171 "runpath.in" +// real arctime(path p, real dval); +void gen_runpath24(stack *Stack) +{ + real dval=vm::pop<real>(Stack); + path p=vm::pop<path>(Stack); +#line 172 "runpath.in" + {Stack->push<real>(p.arctime(dval)); return;} +} + +#line 176 "runpath.in" +// real dirtime(path p, pair z); +void gen_runpath25(stack *Stack) +{ + pair z=vm::pop<pair>(Stack); + path p=vm::pop<path>(Stack); +#line 177 "runpath.in" + {Stack->push<real>(p.directiontime(z)); return;} +} + +#line 181 "runpath.in" +// realarray* intersect(path p, path q, real fuzz=-1); +void gen_runpath26(stack *Stack) +{ + real fuzz=vm::pop<real>(Stack,-1); + path q=vm::pop<path>(Stack); + path p=vm::pop<path>(Stack); +#line 182 "runpath.in" + bool exact=fuzz <= 0.0; + if(fuzz < 0) + fuzz=BigFuzz*::max(::max(length(p.max()),length(p.min())), + ::max(length(q.max()),length(q.min()))); + std::vector<real> S,T; + real s,t; + if(intersections(s,t,S,T,p,q,fuzz,true,exact)) { + array *V=new array(2); + (*V)[0]=s; + (*V)[1]=t; + {Stack->push<realarray*>(V); return;} + } + {Stack->push<realarray*>(new array(0)); return;} +} + +#line 198 "runpath.in" +// realarray2* intersections(path p, path q, real fuzz=-1); +void gen_runpath27(stack *Stack) +{ + real fuzz=vm::pop<real>(Stack,-1); + path q=vm::pop<path>(Stack); + path p=vm::pop<path>(Stack); +#line 199 "runpath.in" + bool exact=fuzz <= 0.0; + if(fuzz < 0.0) + fuzz=BigFuzz*::max(::max(length(p.max()),length(p.min())), + ::max(length(q.max()),length(q.min()))); + real s,t; + std::vector<real> S,T; + intersections(s,t,S,T,p,q,fuzz,false,true); + size_t n=S.size(); + if(n == 0 && !exact) { + if(intersections(s,t,S,T,p,q,fuzz,true,false)) { + array *V=new array(1); + array *Vi=new array(2); + (*V)[0]=Vi; + (*Vi)[0]=s; + (*Vi)[1]=t; + {Stack->push<realarray2*>(V); return;} + } + } + array *V=new array(n); + for(size_t i=0; i < n; ++i) { + array *Vi=new array(2); + (*V)[i]=Vi; + (*Vi)[0]=S[i]; + (*Vi)[1]=T[i]; + } + stable_sort(V->begin(),V->end(),run::compare2<real>()); + {Stack->push<realarray2*>(V); return;} +} + +#line 229 "runpath.in" +// realarray* intersections(path p, explicit pair a, explicit pair b, real fuzz=-1); +void gen_runpath28(stack *Stack) +{ + real fuzz=vm::pop<real>(Stack,-1); + pair b=vm::pop<pair>(Stack); + pair a=vm::pop<pair>(Stack); + path p=vm::pop<path>(Stack); +#line 230 "runpath.in" + if(fuzz < 0) + fuzz=BigFuzz*::max(::max(length(p.max()),length(p.min())), + ::max(length(a),length(b))); + std::vector<real> S; + intersections(S,p,a,b,fuzz); + sort(S.begin(),S.end()); + size_t n=S.size(); + array *V=new array(n); + for(size_t i=0; i < n; ++i) + (*V)[i]=S[i]; + {Stack->push<realarray*>(V); return;} +} + +// Return the intersection point of the extensions of the line segments +// PQ and pq. +#line 246 "runpath.in" +// pair extension(pair P, pair Q, pair p, pair q); +void gen_runpath29(stack *Stack) +{ + pair q=vm::pop<pair>(Stack); + pair p=vm::pop<pair>(Stack); + pair Q=vm::pop<pair>(Stack); + pair P=vm::pop<pair>(Stack); +#line 247 "runpath.in" + pair ac=P-Q; + pair bd=q-p; + real det=ac.getx()*bd.gety()-ac.gety()*bd.getx(); + if(det == 0) {Stack->push<pair>(pair(infinity,infinity)); return;} + {Stack->push<pair>(P+((p.getx()-P.getx())*bd.gety()-(p.gety()-P.gety())*bd.getx())*ac/det); return;} +} + +#line 255 "runpath.in" +// Int size(path p); +void gen_runpath30(stack *Stack) +{ + path p=vm::pop<path>(Stack); +#line 256 "runpath.in" + {Stack->push<Int>(p.size()); return;} +} + +#line 260 "runpath.in" +// path &(path p, path q); +void gen_runpath31(stack *Stack) +{ + path q=vm::pop<path>(Stack); + path p=vm::pop<path>(Stack); +#line 261 "runpath.in" + {Stack->push<path>(camp::concat(p,q)); return;} +} + +#line 265 "runpath.in" +// pair min(path p); +void gen_runpath32(stack *Stack) +{ + path p=vm::pop<path>(Stack); +#line 266 "runpath.in" + {Stack->push<pair>(p.min()); return;} +} + +#line 270 "runpath.in" +// pair max(path p); +void gen_runpath33(stack *Stack) +{ + path p=vm::pop<path>(Stack); +#line 271 "runpath.in" + {Stack->push<pair>(p.max()); return;} +} + +#line 275 "runpath.in" +// realarray* mintimes(path p); +void gen_runpath34(stack *Stack) +{ + path p=vm::pop<path>(Stack); +#line 276 "runpath.in" + array *V=new array(2); + pair z=p.mintimes(); + (*V)[0]=z.getx(); + (*V)[1]=z.gety(); + {Stack->push<realarray*>(V); return;} +} + +#line 284 "runpath.in" +// realarray* maxtimes(path p); +void gen_runpath35(stack *Stack) +{ + path p=vm::pop<path>(Stack); +#line 285 "runpath.in" + array *V=new array(2); + pair z=p.maxtimes(); + (*V)[0]=z.getx(); + (*V)[1]=z.gety(); + {Stack->push<realarray*>(V); return;} +} + +#line 293 "runpath.in" +// real relativedistance(real theta, real phi, real t, bool atleast); +void gen_runpath36(stack *Stack) +{ + bool atleast=vm::pop<bool>(Stack); + real t=vm::pop<real>(Stack); + real phi=vm::pop<real>(Stack); + real theta=vm::pop<real>(Stack); +#line 294 "runpath.in" + {Stack->push<real>(camp::velocity(theta,phi,tension(t,atleast))); return;} +} + +#line 298 "runpath.in" +// Int windingnumber(patharray *p, pair z); +void gen_runpath37(stack *Stack) +{ + pair z=vm::pop<pair>(Stack); + patharray * p=vm::pop<patharray *>(Stack); +#line 299 "runpath.in" + {Stack->push<Int>(windingnumber(p,z)); return;} +} + +#line 303 "runpath.in" +// bool inside(explicit patharray *g, pair z, pen fillrule=CURRENTPEN); +void gen_runpath38(stack *Stack) +{ + pen fillrule=vm::pop<pen>(Stack,CURRENTPEN); + pair z=vm::pop<pair>(Stack); + patharray * g=vm::pop<patharray *>(Stack); +#line 304 "runpath.in" + {Stack->push<bool>(fillrule.inside(windingnumber(g,z))); return;} +} + +#line 308 "runpath.in" +// bool inside(path g, pair z, pen fillrule=CURRENTPEN); +void gen_runpath39(stack *Stack) +{ + pen fillrule=vm::pop<pen>(Stack,CURRENTPEN); + pair z=vm::pop<pair>(Stack); + path g=vm::pop<path>(Stack); +#line 309 "runpath.in" + {Stack->push<bool>(fillrule.inside(g.windingnumber(z))); return;} +} + +// Determine the side of a--b that c lies on +// (negative=left, zero=on line, positive=right). +#line 315 "runpath.in" +// real side(pair a, pair b, pair c); +void gen_runpath40(stack *Stack) +{ + pair c=vm::pop<pair>(Stack); + pair b=vm::pop<pair>(Stack); + pair a=vm::pop<pair>(Stack); +#line 316 "runpath.in" + {Stack->push<real>(orient2d(a,b,c)); return;} +} + +// Determine the side of the counterclockwise circle through a,b,c that d +// lies on (negative=inside, 0=on circle, positive=right). +#line 322 "runpath.in" +// real incircle(pair a, pair b, pair c, pair d); +void gen_runpath41(stack *Stack) +{ + pair d=vm::pop<pair>(Stack); + pair c=vm::pop<pair>(Stack); + pair b=vm::pop<pair>(Stack); + pair a=vm::pop<pair>(Stack); +#line 323 "runpath.in" + {Stack->push<real>(incircle(a.getx(),a.gety(),b.getx(),b.gety(),c.getx(),c.gety(), + d.getx(),d.gety())); return;} +} + +} // namespace run + +namespace trans { + +void gen_runpath_venv(venv &ve) +{ +#line 43 "runpath.in" + REGISTER_BLTIN(run::nullPath,"nullPath"); +#line 48 "runpath.in" + addFunc(ve, run::gen_runpath1, primBoolean(), "==", formal(primPath(), "a", false, false), formal(primPath(), "b", false, false)); +#line 53 "runpath.in" + addFunc(ve, run::gen_runpath2, primBoolean(), "!=", formal(primPath(), "a", false, false), formal(primPath(), "b", false, false)); +#line 58 "runpath.in" + addFunc(ve, run::gen_runpath3, primPair(), "point", formal(primPath(), "p", false, false), formal(primInt(), "t", false, false)); +#line 63 "runpath.in" + addFunc(ve, run::gen_runpath4, primPair(), "point", formal(primPath(), "p", false, false), formal(primReal(), "t", false, false)); +#line 68 "runpath.in" + addFunc(ve, run::gen_runpath5, primPair(), "precontrol", formal(primPath(), "p", false, false), formal(primInt(), "t", false, false)); +#line 73 "runpath.in" + addFunc(ve, run::gen_runpath6, primPair(), "precontrol", formal(primPath(), "p", false, false), formal(primReal(), "t", false, false)); +#line 78 "runpath.in" + addFunc(ve, run::gen_runpath7, primPair(), "postcontrol", formal(primPath(), "p", false, false), formal(primInt(), "t", false, false)); +#line 83 "runpath.in" + addFunc(ve, run::gen_runpath8, primPair(), "postcontrol", formal(primPath(), "p", false, false), formal(primReal(), "t", false, false)); +#line 88 "runpath.in" + addFunc(ve, run::gen_runpath9, primPair(), "dir", formal(primPath(), "p", false, false), formal(primInt(), "t", false, false), formal(primInt(), "sign", true, false), formal(primBoolean(), "normalize", true, false)); +#line 93 "runpath.in" + addFunc(ve, run::gen_runpath10, primPair(), "dir", formal(primPath(), "p", false, false), formal(primReal(), "t", false, false), formal(primBoolean(), "normalize", true, false)); +#line 98 "runpath.in" + addFunc(ve, run::gen_runpath11, primPair(), "accel", formal(primPath(), "p", false, false), formal(primInt(), "t", false, false), formal(primInt(), "sign", true, false)); +#line 103 "runpath.in" + addFunc(ve, run::gen_runpath12, primPair(), "accel", formal(primPath(), "p", false, false), formal(primReal(), "t", false, false)); +#line 108 "runpath.in" + addFunc(ve, run::gen_runpath13, primReal(), "radius", formal(primPath(), "p", false, false), formal(primReal(), "t", false, false)); +#line 120 "runpath.in" + addFunc(ve, run::gen_runpath14, primPath(), "reverse", formal(primPath(), "p", false, false)); +#line 125 "runpath.in" + addFunc(ve, run::gen_runpath15, primPath(), "subpath", formal(primPath(), "p", false, false), formal(primInt(), "a", false, false), formal(primInt(), "b", false, false)); +#line 130 "runpath.in" + addFunc(ve, run::gen_runpath16, primPath(), "subpath", formal(primPath(), "p", false, false), formal(primReal(), "a", false, false), formal(primReal(), "b", false, false)); +#line 135 "runpath.in" + addFunc(ve, run::gen_runpath17, primPath(), "nurb", formal(primPair(), "z0", false, false), formal(primPair(), "z1", false, false), formal(primPair(), "z2", false, false), formal(primPair(), "z3", false, false), formal(primReal(), "w0", false, false), formal(primReal(), "w1", false, false), formal(primReal(), "w2", false, false), formal(primReal(), "w3", false, false), formal(primInt(), "m", false, false)); +#line 141 "runpath.in" + addFunc(ve, run::gen_runpath18, primInt(), "length", formal(primPath(), "p", false, false)); +#line 146 "runpath.in" + addFunc(ve, run::gen_runpath19, primBoolean(), "cyclic", formal(primPath(), "p", false, false)); +#line 151 "runpath.in" + addFunc(ve, run::gen_runpath20, primBoolean(), "straight", formal(primPath(), "p", false, false), formal(primInt(), "t", false, false)); +#line 156 "runpath.in" + addFunc(ve, run::gen_runpath21, primPath(), "unstraighten", formal(primPath(), "p", false, false)); +#line 161 "runpath.in" + addFunc(ve, run::gen_runpath22, primBoolean(), "piecewisestraight", formal(primPath(), "p", false, false)); +#line 166 "runpath.in" + addFunc(ve, run::gen_runpath23, primReal(), "arclength", formal(primPath(), "p", false, false)); +#line 171 "runpath.in" + addFunc(ve, run::gen_runpath24, primReal(), "arctime", formal(primPath(), "p", false, false), formal(primReal(), "dval", false, false)); +#line 176 "runpath.in" + addFunc(ve, run::gen_runpath25, primReal(), "dirtime", formal(primPath(), "p", false, false), formal(primPair(), "z", false, false)); +#line 181 "runpath.in" + addFunc(ve, run::gen_runpath26, realArray(), "intersect", formal(primPath(), "p", false, false), formal(primPath(), "q", false, false), formal(primReal(), "fuzz", true, false)); +#line 198 "runpath.in" + addFunc(ve, run::gen_runpath27, realArray2(), "intersections", formal(primPath(), "p", false, false), formal(primPath(), "q", false, false), formal(primReal(), "fuzz", true, false)); +#line 229 "runpath.in" + addFunc(ve, run::gen_runpath28, realArray(), "intersections", formal(primPath(), "p", false, false), formal(primPair(), "a", false, true), formal(primPair(), "b", false, true), formal(primReal(), "fuzz", true, false)); +#line 244 "runpath.in" + addFunc(ve, run::gen_runpath29, primPair(), "extension", formal(primPair(), "p", false, false), formal(primPair(), "q", false, false), formal(primPair(), "p", false, false), formal(primPair(), "q", false, false)); +#line 255 "runpath.in" + addFunc(ve, run::gen_runpath30, primInt(), "size", formal(primPath(), "p", false, false)); +#line 260 "runpath.in" + addFunc(ve, run::gen_runpath31, primPath(), "&", formal(primPath(), "p", false, false), formal(primPath(), "q", false, false)); +#line 265 "runpath.in" + addFunc(ve, run::gen_runpath32, primPair(), "min", formal(primPath(), "p", false, false)); +#line 270 "runpath.in" + addFunc(ve, run::gen_runpath33, primPair(), "max", formal(primPath(), "p", false, false)); +#line 275 "runpath.in" + addFunc(ve, run::gen_runpath34, realArray(), "mintimes", formal(primPath(), "p", false, false)); +#line 284 "runpath.in" + addFunc(ve, run::gen_runpath35, realArray(), "maxtimes", formal(primPath(), "p", false, false)); +#line 293 "runpath.in" + addFunc(ve, run::gen_runpath36, primReal(), "relativedistance", formal(primReal(), "theta", false, false), formal(primReal(), "phi", false, false), formal(primReal(), "t", false, false), formal(primBoolean(), "atleast", false, false)); +#line 298 "runpath.in" + addFunc(ve, run::gen_runpath37, primInt(), "windingnumber", formal(pathArray() , "p", false, false), formal(primPair(), "z", false, false)); +#line 303 "runpath.in" + addFunc(ve, run::gen_runpath38, primBoolean(), "inside", formal(pathArray() , "g", false, true), formal(primPair(), "z", false, false), formal(primPen(), "fillrule", true, false)); +#line 308 "runpath.in" + addFunc(ve, run::gen_runpath39, primBoolean(), "inside", formal(primPath(), "g", false, false), formal(primPair(), "z", false, false), formal(primPen(), "fillrule", true, false)); +#line 313 "runpath.in" + addFunc(ve, run::gen_runpath40, primReal(), "side", formal(primPair(), "a", false, false), formal(primPair(), "b", false, false), formal(primPair(), "c", false, false)); +#line 320 "runpath.in" + addFunc(ve, run::gen_runpath41, primReal(), "incircle", formal(primPair(), "a", false, false), formal(primPair(), "b", false, false), formal(primPair(), "c", false, false), formal(primPair(), "d", false, false)); +} + +} // namespace trans |