/***** 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" /***** * runpath.in * * Runtime functions for path 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" #include "opsymbols.h" using vm::stack; using vm::error; using vm::array; using vm::read; using vm::callable; using types::formal; using types::function; using camp::triple; #define PRIMITIVE(name,Name,asyName) using types::prim##Name; #include #undef PRIMITIVE void unused(void *); namespace run { typedef double real; array *copyArray(array *a); array *copyArray2(array *a); array *copyArray3(array *a); double *copyTripleArray2Components(array *a, size_t &N, GCPlacement placement=NoGC); triple *copyTripleArray2C(array *a, size_t &N, GCPlacement placement=NoGC); } function *realRealFunction(); #define CURRENTPEN processData().currentpen #line 17 "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(p,i)->windingnumber(z); return count; } // Autogenerated routines: #ifndef NOSYM #include "runpath.symbols.h" #endif namespace run { #line 44 "runpath.in" void nullPath(stack *Stack) { #line 45 "runpath.in" {Stack->push(nullpath); return;} } #line 49 "runpath.in" // bool ==(path a, path b); void gen_runpath1(stack *Stack) { path b=vm::pop(Stack); path a=vm::pop(Stack); #line 50 "runpath.in" {Stack->push(a == b); return;} } #line 54 "runpath.in" // bool !=(path a, path b); void gen_runpath2(stack *Stack) { path b=vm::pop(Stack); path a=vm::pop(Stack); #line 55 "runpath.in" {Stack->push(!(a == b)); return;} } #line 59 "runpath.in" // pair point(path p, Int t); void gen_runpath3(stack *Stack) { Int t=vm::pop(Stack); path p=vm::pop(Stack); #line 60 "runpath.in" {Stack->push(p.point((Int) t)); return;} } #line 64 "runpath.in" // pair point(path p, real t); void gen_runpath4(stack *Stack) { real t=vm::pop(Stack); path p=vm::pop(Stack); #line 65 "runpath.in" {Stack->push(p.point(t)); return;} } #line 69 "runpath.in" // pair precontrol(path p, Int t); void gen_runpath5(stack *Stack) { Int t=vm::pop(Stack); path p=vm::pop(Stack); #line 70 "runpath.in" {Stack->push(p.precontrol((Int) t)); return;} } #line 74 "runpath.in" // pair precontrol(path p, real t); void gen_runpath6(stack *Stack) { real t=vm::pop(Stack); path p=vm::pop(Stack); #line 75 "runpath.in" {Stack->push(p.precontrol(t)); return;} } #line 79 "runpath.in" // pair postcontrol(path p, Int t); void gen_runpath7(stack *Stack) { Int t=vm::pop(Stack); path p=vm::pop(Stack); #line 80 "runpath.in" {Stack->push(p.postcontrol((Int) t)); return;} } #line 84 "runpath.in" // pair postcontrol(path p, real t); void gen_runpath8(stack *Stack) { real t=vm::pop(Stack); path p=vm::pop(Stack); #line 85 "runpath.in" {Stack->push(p.postcontrol(t)); return;} } #line 89 "runpath.in" // pair dir(path p, Int t, Int sign=0, bool normalize=true); void gen_runpath9(stack *Stack) { bool normalize=vm::pop(Stack,true); Int sign=vm::pop(Stack,0); Int t=vm::pop(Stack); path p=vm::pop(Stack); #line 90 "runpath.in" {Stack->push(p.dir(t,sign,normalize)); return;} } #line 94 "runpath.in" // pair dir(path p, real t, bool normalize=true); void gen_runpath10(stack *Stack) { bool normalize=vm::pop(Stack,true); real t=vm::pop(Stack); path p=vm::pop(Stack); #line 95 "runpath.in" {Stack->push(p.dir(t,normalize)); return;} } #line 99 "runpath.in" // pair accel(path p, Int t, Int sign=0); void gen_runpath11(stack *Stack) { Int sign=vm::pop(Stack,0); Int t=vm::pop(Stack); path p=vm::pop(Stack); #line 100 "runpath.in" {Stack->push(p.accel(t,sign)); return;} } #line 104 "runpath.in" // pair accel(path p, real t); void gen_runpath12(stack *Stack) { real t=vm::pop(Stack); path p=vm::pop(Stack); #line 105 "runpath.in" {Stack->push(p.accel(t)); return;} } #line 109 "runpath.in" // real radius(path p, real t); void gen_runpath13(stack *Stack) { real t=vm::pop(Stack); path p=vm::pop(Stack); #line 110 "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(denom > 0 ? r/sqrt(denom) : 0.0); return;} } #line 121 "runpath.in" // path reverse(path p); void gen_runpath14(stack *Stack) { path p=vm::pop(Stack); #line 122 "runpath.in" {Stack->push(p.reverse()); return;} } #line 126 "runpath.in" // path subpath(path p, Int a, Int b); void gen_runpath15(stack *Stack) { Int b=vm::pop(Stack); Int a=vm::pop(Stack); path p=vm::pop(Stack); #line 127 "runpath.in" {Stack->push(p.subpath((Int) a, (Int) b)); return;} } #line 131 "runpath.in" // path subpath(path p, real a, real b); void gen_runpath16(stack *Stack) { real b=vm::pop(Stack); real a=vm::pop(Stack); path p=vm::pop(Stack); #line 132 "runpath.in" {Stack->push(p.subpath(a,b)); return;} } #line 136 "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(Stack); real w3=vm::pop(Stack); real w2=vm::pop(Stack); real w1=vm::pop(Stack); real w0=vm::pop(Stack); pair z3=vm::pop(Stack); pair z2=vm::pop(Stack); pair z1=vm::pop(Stack); pair z0=vm::pop(Stack); #line 138 "runpath.in" {Stack->push(nurb(z0,z1,z2,z3,w0,w1,w2,w3,m)); return;} } #line 142 "runpath.in" // Int length(path p); void gen_runpath18(stack *Stack) { path p=vm::pop(Stack); #line 143 "runpath.in" {Stack->push(p.length()); return;} } #line 147 "runpath.in" // bool cyclic(path p); void gen_runpath19(stack *Stack) { path p=vm::pop(Stack); #line 148 "runpath.in" {Stack->push(p.cyclic()); return;} } #line 152 "runpath.in" // bool straight(path p, Int t); void gen_runpath20(stack *Stack) { Int t=vm::pop(Stack); path p=vm::pop(Stack); #line 153 "runpath.in" {Stack->push(p.straight(t)); return;} } #line 157 "runpath.in" // path unstraighten(path p); void gen_runpath21(stack *Stack) { path p=vm::pop(Stack); #line 158 "runpath.in" {Stack->push(p.unstraighten()); return;} } #line 162 "runpath.in" // bool piecewisestraight(path p); void gen_runpath22(stack *Stack) { path p=vm::pop(Stack); #line 163 "runpath.in" {Stack->push(p.piecewisestraight()); return;} } #line 167 "runpath.in" // real arclength(path p); void gen_runpath23(stack *Stack) { path p=vm::pop(Stack); #line 168 "runpath.in" {Stack->push(p.arclength()); return;} } #line 172 "runpath.in" // real arclength(pair z0, pair c0, pair c1, pair z1); void gen_runpath24(stack *Stack) { pair z1=vm::pop(Stack); pair c1=vm::pop(Stack); pair c0=vm::pop(Stack); pair z0=vm::pop(Stack); #line 173 "runpath.in" {Stack->push(arcLength(z0,c0,c1,z1)); return;} } #line 177 "runpath.in" // real arctime(path p, real L); void gen_runpath25(stack *Stack) { real L=vm::pop(Stack); path p=vm::pop(Stack); #line 178 "runpath.in" {Stack->push(p.arctime(L)); return;} } #line 182 "runpath.in" // real dirtime(path p, pair z); void gen_runpath26(stack *Stack) { pair z=vm::pop(Stack); path p=vm::pop(Stack); #line 183 "runpath.in" {Stack->push(p.directiontime(z)); return;} } #line 187 "runpath.in" // realarray* intersect(path p, path q, real fuzz=-1); void gen_runpath27(stack *Stack) { real fuzz=vm::pop(Stack,-1); path q=vm::pop(Stack); path p=vm::pop(Stack); #line 188 "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 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(V); return;} } {Stack->push(new array(0)); return;} } #line 204 "runpath.in" // realarray2* intersections(path p, path q, real fuzz=-1); void gen_runpath28(stack *Stack) { real fuzz=vm::pop(Stack,-1); path q=vm::pop(Stack); path p=vm::pop(Stack); #line 205 "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 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(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()); {Stack->push(V); return;} } #line 235 "runpath.in" // realarray* intersections(path p, explicit pair a, explicit pair b, real fuzz=-1); void gen_runpath29(stack *Stack) { real fuzz=vm::pop(Stack,-1); pair b=vm::pop(Stack); pair a=vm::pop(Stack); path p=vm::pop(Stack); #line 236 "runpath.in" if(fuzz < 0) fuzz=BigFuzz*::max(::max(length(p.max()),length(p.min())), ::max(length(a),length(b))); std::vector 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(V); return;} } // Return the intersection point of the extensions of the line segments // PQ and pq. #line 252 "runpath.in" // pair extension(pair P, pair Q, pair p, pair q); void gen_runpath30(stack *Stack) { pair q=vm::pop(Stack); pair p=vm::pop(Stack); pair Q=vm::pop(Stack); pair P=vm::pop(Stack); #line 253 "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(infinity,infinity)); return;} {Stack->push(P+((p.getx()-P.getx())*bd.gety()-(p.gety()-P.gety())*bd.getx())*ac/det); return;} } #line 261 "runpath.in" // Int size(path p); void gen_runpath31(stack *Stack) { path p=vm::pop(Stack); #line 262 "runpath.in" {Stack->push(p.size()); return;} } #line 266 "runpath.in" // path &(path p, path q); void gen_runpath32(stack *Stack) { path q=vm::pop(Stack); path p=vm::pop(Stack); #line 267 "runpath.in" {Stack->push(camp::concat(p,q)); return;} } #line 271 "runpath.in" // pair min(explicit path p); void gen_runpath33(stack *Stack) { path p=vm::pop(Stack); #line 272 "runpath.in" {Stack->push(p.min()); return;} } #line 276 "runpath.in" // pair max(explicit path p); void gen_runpath34(stack *Stack) { path p=vm::pop(Stack); #line 277 "runpath.in" {Stack->push(p.max()); return;} } #line 281 "runpath.in" // Int size(patharray *p); void gen_runpath35(stack *Stack) { patharray * p=vm::pop(Stack); #line 282 "runpath.in" size_t size=checkArray(p); Int count=0; for (size_t i = 0; i < size; i++) count += read(p,i)->size(); {Stack->push(count); return;} } #line 290 "runpath.in" // pair min(patharray *p); void gen_runpath36(stack *Stack) { patharray * p=vm::pop(Stack); #line 291 "runpath.in" size_t size=checkArray(p); if(size == 0) error(nopoints); path *g = p->read(0); pair z = g->min(); double minx = z.getx(), miny = z.gety(); for (size_t i = 1; i < size; ++i) { path *g = p->read(i); pair z = g->min(); double x = z.getx(), y = z.gety(); if (x < minx) minx = x; if (y < miny) miny = y; } {Stack->push(pair(minx, miny)); return;} } #line 314 "runpath.in" // pair max(patharray *p); void gen_runpath37(stack *Stack) { patharray * p=vm::pop(Stack); #line 315 "runpath.in" size_t size=checkArray(p); if(size == 0) error(nopoints); path *g = p->read(0); pair z = g->max(); double maxx = z.getx(), maxy = z.gety(); for (size_t i = 1; i < size; ++i) { path *g = p->read(i); pair z = g->max(); double x = z.getx(), y = z.gety(); if (x > maxx) maxx = x; if (y > maxy) maxy = y; } {Stack->push(pair(maxx, maxy)); return;} } #line 338 "runpath.in" // pair minAfterTransform(transform t, patharray *p); void gen_runpath38(stack *Stack) { patharray * p=vm::pop(Stack); transform t=vm::pop(Stack); #line 339 "runpath.in" size_t size=checkArray(p); if(size == 0) error(nopoints); path g = p->read(0)->transformed(t); pair z = g.min(); double minx = z.getx(), miny = z.gety(); for (size_t i = 1; i < size; ++i) { path g = p->read(i)->transformed(t); pair z = g.min(); double x = z.getx(), y = z.gety(); if (x < minx) minx = x; if (y < miny) miny = y; } {Stack->push(pair(minx, miny)); return;} } #line 362 "runpath.in" // pair maxAfterTransform(transform t, patharray *p); void gen_runpath39(stack *Stack) { patharray * p=vm::pop(Stack); transform t=vm::pop(Stack); #line 363 "runpath.in" size_t size=checkArray(p); if(size == 0) error(nopoints); path g = p->read(0)->transformed(t); pair z = g.max(); double maxx = z.getx(), maxy = z.gety(); for (size_t i = 1; i < size; ++i) { path g = p->read(i)->transformed(t); pair z = g.max(); double x = z.getx(), y = z.gety(); if (x > maxx) maxx = x; if (y > maxy) maxy = y; } {Stack->push(pair(maxx, maxy)); return;} } #line 386 "runpath.in" // realarray* mintimes(path p); void gen_runpath40(stack *Stack) { path p=vm::pop(Stack); #line 387 "runpath.in" array *V=new array(2); pair z=p.mintimes(); (*V)[0]=z.getx(); (*V)[1]=z.gety(); {Stack->push(V); return;} } #line 395 "runpath.in" // realarray* maxtimes(path p); void gen_runpath41(stack *Stack) { path p=vm::pop(Stack); #line 396 "runpath.in" array *V=new array(2); pair z=p.maxtimes(); (*V)[0]=z.getx(); (*V)[1]=z.gety(); {Stack->push(V); return;} } #line 404 "runpath.in" // real relativedistance(real theta, real phi, real t, bool atleast); void gen_runpath42(stack *Stack) { bool atleast=vm::pop(Stack); real t=vm::pop(Stack); real phi=vm::pop(Stack); real theta=vm::pop(Stack); #line 405 "runpath.in" {Stack->push(camp::velocity(theta,phi,tension(t,atleast))); return;} } #line 409 "runpath.in" // Int windingnumber(patharray *p, pair z); void gen_runpath43(stack *Stack) { pair z=vm::pop(Stack); patharray * p=vm::pop(Stack); #line 410 "runpath.in" {Stack->push(windingnumber(p,z)); return;} } #line 414 "runpath.in" // bool inside(explicit patharray *g, pair z, pen fillrule=CURRENTPEN); void gen_runpath44(stack *Stack) { pen fillrule=vm::pop(Stack,CURRENTPEN); pair z=vm::pop(Stack); patharray * g=vm::pop(Stack); #line 415 "runpath.in" {Stack->push(fillrule.inside(windingnumber(g,z))); return;} } #line 419 "runpath.in" // bool inside(path g, pair z, pen fillrule=CURRENTPEN); void gen_runpath45(stack *Stack) { pen fillrule=vm::pop(Stack,CURRENTPEN); pair z=vm::pop(Stack); path g=vm::pop(Stack); #line 420 "runpath.in" {Stack->push(fillrule.inside(g.windingnumber(z))); return;} } // Return a positive (negative) value if a--b--c--cycle is oriented // counterclockwise (clockwise) or zero if all three points are colinear. // Equivalently, return a positive (negative) value if c lies to the // left (right) of the line through a and b or zero if c lies on this line. // The value returned is the determinant // |a.x a.y 1| // |b.x b.y 1| // |c.x c.y 1| // #line 433 "runpath.in" // real orient(pair a, pair b, pair c); void gen_runpath46(stack *Stack) { pair c=vm::pop(Stack); pair b=vm::pop(Stack); pair a=vm::pop(Stack); #line 434 "runpath.in" {Stack->push(orient2d(a,b,c)); return;} } // Return a positive (negative) value if d lies inside (outside) // the circle passing through the counterclockwise-oriented points a,b,c // or zero if d lies on this circle. // The value returned is the determinant // |a.x a.y a.x^2+a.y^2 1| // |b.x b.y b.x^2+b.y^2 1| // |c.x c.y c.x^2+c.y^2 1| // |d.x d.y d.x^2+d.y^2 1| #line 446 "runpath.in" // real incircle(pair a, pair b, pair c, pair d); void gen_runpath47(stack *Stack) { pair d=vm::pop(Stack); pair c=vm::pop(Stack); pair b=vm::pop(Stack); pair a=vm::pop(Stack); #line 447 "runpath.in" {Stack->push(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 44 "runpath.in" REGISTER_BLTIN(run::nullPath,"nullPath"); #line 49 "runpath.in" addFunc(ve, run::gen_runpath1, primBoolean(), SYM_EQ, formal(primPath(), SYM(a), false, false), formal(primPath(), SYM(b), false, false)); #line 54 "runpath.in" addFunc(ve, run::gen_runpath2, primBoolean(), SYM_NEQ, formal(primPath(), SYM(a), false, false), formal(primPath(), SYM(b), false, false)); #line 59 "runpath.in" addFunc(ve, run::gen_runpath3, primPair(), SYM(point), formal(primPath(), SYM(p), false, false), formal(primInt(), SYM(t), false, false)); #line 64 "runpath.in" addFunc(ve, run::gen_runpath4, primPair(), SYM(point), formal(primPath(), SYM(p), false, false), formal(primReal(), SYM(t), false, false)); #line 69 "runpath.in" addFunc(ve, run::gen_runpath5, primPair(), SYM(precontrol), formal(primPath(), SYM(p), false, false), formal(primInt(), SYM(t), false, false)); #line 74 "runpath.in" addFunc(ve, run::gen_runpath6, primPair(), SYM(precontrol), formal(primPath(), SYM(p), false, false), formal(primReal(), SYM(t), false, false)); #line 79 "runpath.in" addFunc(ve, run::gen_runpath7, primPair(), SYM(postcontrol), formal(primPath(), SYM(p), false, false), formal(primInt(), SYM(t), false, false)); #line 84 "runpath.in" addFunc(ve, run::gen_runpath8, primPair(), SYM(postcontrol), formal(primPath(), SYM(p), false, false), formal(primReal(), SYM(t), false, false)); #line 89 "runpath.in" addFunc(ve, run::gen_runpath9, primPair(), SYM(dir), formal(primPath(), SYM(p), false, false), formal(primInt(), SYM(t), false, false), formal(primInt(), SYM(sign), true, false), formal(primBoolean(), SYM(normalize), true, false)); #line 94 "runpath.in" addFunc(ve, run::gen_runpath10, primPair(), SYM(dir), formal(primPath(), SYM(p), false, false), formal(primReal(), SYM(t), false, false), formal(primBoolean(), SYM(normalize), true, false)); #line 99 "runpath.in" addFunc(ve, run::gen_runpath11, primPair(), SYM(accel), formal(primPath(), SYM(p), false, false), formal(primInt(), SYM(t), false, false), formal(primInt(), SYM(sign), true, false)); #line 104 "runpath.in" addFunc(ve, run::gen_runpath12, primPair(), SYM(accel), formal(primPath(), SYM(p), false, false), formal(primReal(), SYM(t), false, false)); #line 109 "runpath.in" addFunc(ve, run::gen_runpath13, primReal(), SYM(radius), formal(primPath(), SYM(p), false, false), formal(primReal(), SYM(t), false, false)); #line 121 "runpath.in" addFunc(ve, run::gen_runpath14, primPath(), SYM(reverse), formal(primPath(), SYM(p), false, false)); #line 126 "runpath.in" addFunc(ve, run::gen_runpath15, primPath(), SYM(subpath), formal(primPath(), SYM(p), false, false), formal(primInt(), SYM(a), false, false), formal(primInt(), SYM(b), false, false)); #line 131 "runpath.in" addFunc(ve, run::gen_runpath16, primPath(), SYM(subpath), formal(primPath(), SYM(p), false, false), formal(primReal(), SYM(a), false, false), formal(primReal(), SYM(b), false, false)); #line 136 "runpath.in" addFunc(ve, run::gen_runpath17, primPath(), SYM(nurb), formal(primPair(), SYM(z0), false, false), formal(primPair(), SYM(z1), false, false), formal(primPair(), SYM(z2), false, false), formal(primPair(), SYM(z3), false, false), formal(primReal(), SYM(w0), false, false), formal(primReal(), SYM(w1), false, false), formal(primReal(), SYM(w2), false, false), formal(primReal(), SYM(w3), false, false), formal(primInt(), SYM(m), false, false)); #line 142 "runpath.in" addFunc(ve, run::gen_runpath18, primInt(), SYM(length), formal(primPath(), SYM(p), false, false)); #line 147 "runpath.in" addFunc(ve, run::gen_runpath19, primBoolean(), SYM(cyclic), formal(primPath(), SYM(p), false, false)); #line 152 "runpath.in" addFunc(ve, run::gen_runpath20, primBoolean(), SYM(straight), formal(primPath(), SYM(p), false, false), formal(primInt(), SYM(t), false, false)); #line 157 "runpath.in" addFunc(ve, run::gen_runpath21, primPath(), SYM(unstraighten), formal(primPath(), SYM(p), false, false)); #line 162 "runpath.in" addFunc(ve, run::gen_runpath22, primBoolean(), SYM(piecewisestraight), formal(primPath(), SYM(p), false, false)); #line 167 "runpath.in" addFunc(ve, run::gen_runpath23, primReal(), SYM(arclength), formal(primPath(), SYM(p), false, false)); #line 172 "runpath.in" addFunc(ve, run::gen_runpath24, primReal(), SYM(arclength), formal(primPair(), SYM(z0), false, false), formal(primPair(), SYM(c0), false, false), formal(primPair(), SYM(c1), false, false), formal(primPair(), SYM(z1), false, false)); #line 177 "runpath.in" addFunc(ve, run::gen_runpath25, primReal(), SYM(arctime), formal(primPath(), SYM(p), false, false), formal(primReal(), SYM(l), false, false)); #line 182 "runpath.in" addFunc(ve, run::gen_runpath26, primReal(), SYM(dirtime), formal(primPath(), SYM(p), false, false), formal(primPair(), SYM(z), false, false)); #line 187 "runpath.in" addFunc(ve, run::gen_runpath27, realArray(), SYM(intersect), formal(primPath(), SYM(p), false, false), formal(primPath(), SYM(q), false, false), formal(primReal(), SYM(fuzz), true, false)); #line 204 "runpath.in" addFunc(ve, run::gen_runpath28, realArray2(), SYM(intersections), formal(primPath(), SYM(p), false, false), formal(primPath(), SYM(q), false, false), formal(primReal(), SYM(fuzz), true, false)); #line 235 "runpath.in" addFunc(ve, run::gen_runpath29, realArray(), SYM(intersections), formal(primPath(), SYM(p), false, false), formal(primPair(), SYM(a), false, true), formal(primPair(), SYM(b), false, true), formal(primReal(), SYM(fuzz), true, false)); #line 250 "runpath.in" addFunc(ve, run::gen_runpath30, primPair(), SYM(extension), formal(primPair(), SYM(p), false, false), formal(primPair(), SYM(q), false, false), formal(primPair(), SYM(p), false, false), formal(primPair(), SYM(q), false, false)); #line 261 "runpath.in" addFunc(ve, run::gen_runpath31, primInt(), SYM(size), formal(primPath(), SYM(p), false, false)); #line 266 "runpath.in" addFunc(ve, run::gen_runpath32, primPath(), SYM_AMPERSAND, formal(primPath(), SYM(p), false, false), formal(primPath(), SYM(q), false, false)); #line 271 "runpath.in" addFunc(ve, run::gen_runpath33, primPair(), SYM(min), formal(primPath(), SYM(p), false, true)); #line 276 "runpath.in" addFunc(ve, run::gen_runpath34, primPair(), SYM(max), formal(primPath(), SYM(p), false, true)); #line 281 "runpath.in" addFunc(ve, run::gen_runpath35, primInt(), SYM(size), formal(pathArray(), SYM(p), false, false)); #line 290 "runpath.in" addFunc(ve, run::gen_runpath36, primPair(), SYM(min), formal(pathArray(), SYM(p), false, false)); #line 314 "runpath.in" addFunc(ve, run::gen_runpath37, primPair(), SYM(max), formal(pathArray(), SYM(p), false, false)); #line 338 "runpath.in" addFunc(ve, run::gen_runpath38, primPair(), SYM(minAfterTransform), formal(primTransform(), SYM(t), false, false), formal(pathArray(), SYM(p), false, false)); #line 362 "runpath.in" addFunc(ve, run::gen_runpath39, primPair(), SYM(maxAfterTransform), formal(primTransform(), SYM(t), false, false), formal(pathArray(), SYM(p), false, false)); #line 386 "runpath.in" addFunc(ve, run::gen_runpath40, realArray(), SYM(mintimes), formal(primPath(), SYM(p), false, false)); #line 395 "runpath.in" addFunc(ve, run::gen_runpath41, realArray(), SYM(maxtimes), formal(primPath(), SYM(p), false, false)); #line 404 "runpath.in" addFunc(ve, run::gen_runpath42, primReal(), SYM(relativedistance), formal(primReal(), SYM(theta), false, false), formal(primReal(), SYM(phi), false, false), formal(primReal(), SYM(t), false, false), formal(primBoolean(), SYM(atleast), false, false)); #line 409 "runpath.in" addFunc(ve, run::gen_runpath43, primInt(), SYM(windingnumber), formal(pathArray(), SYM(p), false, false), formal(primPair(), SYM(z), false, false)); #line 414 "runpath.in" addFunc(ve, run::gen_runpath44, primBoolean(), SYM(inside), formal(pathArray(), SYM(g), false, true), formal(primPair(), SYM(z), false, false), formal(primPen(), SYM(fillrule), true, false)); #line 419 "runpath.in" addFunc(ve, run::gen_runpath45, primBoolean(), SYM(inside), formal(primPath(), SYM(g), false, false), formal(primPair(), SYM(z), false, false), formal(primPen(), SYM(fillrule), true, false)); #line 424 "runpath.in" addFunc(ve, run::gen_runpath46, primReal(), SYM(orient), formal(primPair(), SYM(a), false, false), formal(primPair(), SYM(b), false, false), formal(primPair(), SYM(c), false, false)); #line 438 "runpath.in" addFunc(ve, run::gen_runpath47, primReal(), SYM(incircle), formal(primPair(), SYM(a), false, false), formal(primPair(), SYM(b), false, false), formal(primPair(), SYM(c), false, false), formal(primPair(), SYM(d), false, false)); } } // namespace trans