/* -*-ePiX-*- */ #include "epix.h" using namespace ePiX; P sw(789,1952), ne(3000, 730); double XSZ(5.5), YSZ(1.2); // Cartesian dimensions P pt(double x, double y) { return P(XSZ*(x-sw.x1())/(ne.x1() - sw.x1()), YSZ*(y-sw.x2())/(ne.x2() - sw.x2())); } P Bl(380, 2200), Tr(3180, 100); P pic(double x, double y) { return P(8*(x-Bl.x1())/(Tr.x1() - Bl.x1()), 6*(y-Bl.x2())/(Tr.x2() - Bl.x2())); } void Circ(const P& loc, const std::string& msg) { dot_size(16); circ(loc); label(loc, msg); } void key(const P& loc, const std::string& msg) { P stem(P(0.5, 0.25)); double scale(5 - 2*loc.x1()); // to put labels at 4.5 = (5+stem.x1())/2 P elbow(loc + scale*stem), tail(elbow+P(0.25)); line(elbow, tail); base(White(), 2.5); line(elbow, tail); base(Neutral(), 0); arrow(elbow, elbow-scale*0.99*stem); Circ(tail, msg); } int main() { picture(P(0,0), P(8,6), "8 x 6in"); begin(); degrees(); screen scr(P(0,0), P(XSZ, YSZ)); activate(scr); grid(P(0,0), P(6, 1.2), 6, 3); bold(); grid(); axis Ax(P(0,0), P(5,0), 5, P(0,-4), b); Ax.subdivide(2).tick_ratio(1).align(t).draw(); axis Ay(P(0,0), P(0,1), 5, P(-4,0), l); Ay.align(r).draw(); axis Ax2(P(0,YSZ), P(5,YSZ), 5); Ax2.subdivide(2).tick_ratio(1).align(b).draw_ticks(); axis Ay2(P(XSZ,0), P(XSZ,YSZ), 6); Ay2.align(l).draw_ticks(); std::vector

data1, data2, data3; data1.push_back(pt(791, 931)); data1.push_back(pt(875, 931)); data1.push_back(pt(975, 931)); data1.push_back(pt(1075, 931)); data1.push_back(pt(1175, 931)); data1.push_back(pt(1275, 932)); data1.push_back(pt(1375, 935)); data1.push_back(pt(1475, 936)); data1.push_back(pt(1575, 941)); data1.push_back(pt(1675, 962)); data1.push_back(pt(1775, 1013)); data1.push_back(pt(1875, 1105)); data1.push_back(pt(1975, 1245)); data1.push_back(pt(2075, 1427)); // first common point data1.push_back(pt(2175, 1603)); data1.push_back(pt(2275, 1743)); data1.push_back(pt(2375, 1837)); data1.push_back(pt(2475, 1896)); data1.push_back(pt(2575, 1927)); data1.push_back(pt(2675, 1940)); data1.push_back(pt(2775, 1947)); data1.push_back(pt(2875, 1948)); data1.push_back(pt(2990, 1948)); data2.push_back(pt(1275, 932)); data2.push_back(pt(1375, 935)); data2.push_back(pt(1475, 939)); data2.push_back(pt(1575, 956)); data2.push_back(pt(1675, 982)); data2.push_back(pt(1775, 1031)); data2.push_back(pt(1875, 1120)); data2.push_back(pt(1975, 1250)); data2.push_back(pt(2075, 1428)); data2.push_back(pt(2175, 1603)); data3.push_back(pt(791, 931)); data3.push_back(pt(875, 932)); data3.push_back(pt(975, 933)); data3.push_back(pt(1075, 937)); data3.push_back(pt(1175, 944)); data3.push_back(pt(1275, 954)); data3.push_back(pt(1375, 967)); data3.push_back(pt(1475, 984)); data3.push_back(pt(1575, 1006)); data3.push_back(pt(1675, 1037)); data3.push_back(pt(1775, 1084)); data3.push_back(pt(1875, 1159)); data3.push_back(pt(1975, 1268)); data3.push_back(pt(2075, 1428)); spline(data1, 12); spline(data2, 12); spline(data3, 12); plain(); key(pt(1678, 962), "$1$"); key(pt(1714, 997), "$2$"); key(pt(1729, 1060), "$3$"); crop(); label(P(2.5), P(0,-4), "$\\rho$", b); label(P(2.75, 0), P(0,-18), // added period "\\textsc{Fig.~4} -- Central form factors, knee variation.", b); label_angle(90); label(P(0, 0.6), P(-24,0), "\\Code{FFCR} and/or \\Code{FFCI}", l); deactivate(scr); inset(scr, P(1.125,0.5), P(8, 4.25)); // now draw rest of page label_angle(0); label(pic(1292, 244), P(0,0), "\\Code{R0 = 1.20},\\quad \\Code{A = 0.52},\\quad \\Code{FN2A = 1},\\quad \\Code{PMA = 1},\\quad $\\rho_{m_A} = \\bar{\\rho}_N = 3.24$", r); label(pic(1916, 204), P(0,0), "\\framebox{p - Cu\\quad $9.75$~\\MeV}", t); P lb(pic(1584, 320)), dY(pic(1584, 384) - lb); Circ(lb, "$1$");// labels uncircled in original label(lb, P(12,0), "\\Code{FN1A = 0.01}", r); label(lb, P(100,0), "\\Code{HA = 0}", r); lb += dY; Circ(lb, "$2$"); label(lb, P(12,0), "\\Code{FN1A = 1}", r); label(lb, P(100,0), "\\Code{HA = 0}", r); label(lb, P(172,0), "(Standard form factor)", r); lb += dY; Circ(lb, "$3$"); label(lb, P(12,0), "\\Code{FN1A = 3}", r); label(lb, P(100,0), "\\Code{HA = 0.046}", r); tikz_format(); end(); }