From: W. Trevor King Date: Tue, 30 Jun 2009 20:22:06 +0000 (-0400) Subject: Started versioning my asymptote libraries. X-Git-Url: http://git.tremily.us/?a=commitdiff_plain;h=aadc79c2d5cd8ceda419c9a9513ff878b848e800;p=course.git Started versioning my asymptote libraries. --- diff --git a/asymptote/Circ.asy b/asymptote/Circ.asy new file mode 100644 index 0000000..3cb26cc --- /dev/null +++ b/asymptote/Circ.asy @@ -0,0 +1,1000 @@ +// Circ.asy +// +// Version 0.1 +// An Asymptote library for drawing electical circuit diagrams. +// Strongly based on makecirc.mp by GS Bustamante Argañaraz. +// Copyright (c) 2003 GS Bustamante Argañaraz, 2008 WT King. +// +// This program may be distributed and/or modified under the conditions +// of the LaTeX Project Public License, either version 1.3c of this +// license or (at your option) any later version. The latest version +// of this license is in http://www.latex-project.org/lppl.txt. +// +// This program consists of the file Circ.asy + +// Command definitions for easier labeling + +texpreamble("\def\ohm{\ensuremath{\,\Omega}}"); +texpreamble("\def\kohm{\,k\ensuremath{\Omega}}"); +texpreamble("\def\modarg#1#2{\setbox0=\hbox{$\mkern-1mu/#2^\circ$}\dp0=.21ex $#1\underline{\box0}$}"); + +int rotatelabel = 0; +int norotatelabel = 1; +int labeling = rotatelabel; + +// Macros for the pens, I define them as such so when they expand, +// look for the last value assigned to linewd and use it +// (thanks to JLD). The linewd value assigns it as newinternal to +// be able to change it «from out». + +real linewd = 0.25mm; + +pen line = makepen(scale(0.5*linewd)*unitcircle); +pen misc = makepen(scale(0.4*linewd)*unitcircle); + +// Arrowhead definitions + +real ahlength = 4bp; // Arrowhead length +real ahangle = 30; // Arrowhead angle + +path miscahead (path p) +{ + real t = reltime(p, 1.0); + pair A = point(p,t); + pair u = -dir(p,t); + path a = shift(A)*((0,0)--(scale(ahlength)*rotate(15)*u)); + path b = shift(A)*((0,0)--(scale(ahlength)*rotate(-15)*u)); + return (a & reverse(a) & b & reverse(b))--cycle; +} + +path fullhead (path p, real length=ahlength, real angle=ahangle) +{ + real t = reltime(p, 1.0); + pair A = point(p,t); + pair u = -dir(p,t); + path a = shift(A)*((0,0)--(scale(length)*rotate(angle/2)*u)); + path b = shift(A)*((0,0)--(scale(length)*rotate(-angle/2)*u)); + return (A -- a -- reverse(b) --cycle); +} + +path bjtahead (path p) +{ + pair A = point(p,reltime(p,0.7)); + pair u = -dir(p,reltime(p,0.5)); + path a = shift(A)*((0,0)--(scale(ahlength)*rotate(20)*u)); + path b = shift(A)*((0,0)--(scale(ahlength)*rotate(-20)*u)); + return (a & reverse(a) & b & reverse(b))--cycle; +} + +path txtahead (path p) +{ + pair A = point(p,reltime(p,1.0)); + pair B = point(p,reltime(p,0.97)); + pair u = dirtime(p,reltime(p,1.0)); + return A{-u}..(A - scale(7)*rotate(15)*u)--B + --(A - scale(7)*rotate(-15)*u)..A{u}--cycle; +} + +// function to wire the symbols together + +int nsq=0, udsq=2, rlsq=3, usq=4; + +void wire(pair pin_beg, pair pin_end, int type) +{ + if (type==nsq) { + draw(pin_beg--pin_end, line); + } else if (type==udsq) { + draw(pin_beg--(pin_beg.x,pin_end.y)--pin_end, line); + } else if (type==rlsq) { + draw(pin_beg--(pin_end.x,pin_beg.y)--pin_end, line); + } else { + write("Error, unrecognized wire type",type); + } +} + +// function to connect two branches in parallel + +void wireU(pair pin_beg, pair pin_end, real dist, int type) +{ + if (type==udsq) { + draw(pin_beg--(pin_beg+(0,dist))--(pin_end.x,pin_beg.y + dist) + --pin_end, line); + } else if (type==rlsq) { + draw(pin_beg--(pin_beg+(dist,0))--(pin_beg.x + dist,pin_end.y) + --pin_end, line); + } else { + write("Error, unrecognized wireU type",type); + } +} + +// Macro to center text among two pins + +bool witharrow=false, noarrow=true; + +void ctext(pair pin_beg, pair pin_end, string txt, bool type) +{ + picture ctxt; + if (type==noarrow) { + ; // pass + } else if (type==witharrow) { + draw(ctxt, pin_beg--pin_end); + draw(ctxt, txtahead(pin_beg--pin_end)); + draw(ctxt, txtahead(reverse(pin_beg--pin_end))); + } else { + write("Error, unrecognized ctext type",type); + } + label(ctxt, txt, 0.5(pin_beg+pin_end)); + add(currentpicture, ctxt); +} + +// Definition of lbsep (label separation), distance among symbol and label. + +real lbsep=3mm; + + +// ----- Here the symbols begin -------- + +struct TwoTerminal { + pair beg; + pair end; + pair mid; + real len; + real ang; + real lchar; + real lcharv; + string name; + string val; + path pLine[]; // cyclic paths are filled in + path pMisc[]; + + void operator init(pair beg, real len, real ang, real lchar, real lcharv, string name, string val, path pLine[]={}, path pMisc[]={}) { + this.beg = beg; + this.end = beg+rotate(ang)*(len,0); + this.mid = (this.beg + this.end)/2; + this.len = len; + this.ang = ang % 360; + this.lchar = lchar; + this.lcharv = lcharv; + this.name = name; + this.val = val; + this.pLine = pLine; + this.pMisc = pMisc; + } + + void putlabel(picture pic=currentpicture) { + picture picL; + pair pName, pVal; // point + real rName, rVal; // rotated by + align aName, aVal; + if (labeling==rotatelabel) { + pName = (lchar+lbsep)*dir (90+ang); + pVal = (lcharv+lbsep)*dir (270+ang); + aName = NoAlign; + aVal = NoAlign; + if (ang <= 90 || ang > 270) { + rName = ang; + rVal = ang; + } else if (ang > 90 && ang <= 270) { + rName = 180+ang; + rVal = 180+ang; + } + } else if (labeling==norotatelabel) { + rName = 0; + rVal = 0; + if (ang == 0) { + pName = (lchar+.25lbsep)*dir (90+ang); + pVal = (lcharv+.25lbsep)*dir (270+ang); + aName = N; + aVal = S; + } else if (ang < 90) { + pName = (lchar)*dir (90+ang); + pVal = (lcharv)*dir (270+ang); + aName = NW; + aVal = SE; + } else if (ang == 90) { + pName = (lchar+.25lbsep)*dir (90+ang); + pVal = (lcharv+.25lbsep)*dir (270+ang); + aName = W; + aVal = E; + } else if (90 < ang && ang < 180) { + pName = (lchar)*dir (90+ang); + pVal = (lcharv)*dir (270+ang); + aName = SW; + aVal = NE; + } else if (ang == 180) { + pName = (lchar+.25lbsep)*dir (90+ang); + pVal = (lcharv+.25lbsep)*dir (270+ang); + aName = S; + aVal = N; + } else if (ang > 180 && ang < 270) { + pName = (lchar)*dir (90+ang); + pVal = (lcharv)*dir (270+ang); + aName = SE; + aVal = NW; + } else if (ang == 270) { + pName = (lchar+.25lbsep)*dir (90+ang); + pVal = (lcharv+.25lbsep)*dir (270+ang); + aName = E; + aVal = W; + } else if (270 < ang && ang < 360) { + pName = (lchar)*dir (90+ang); + pVal = (lcharv)*dir (270+ang); + aName = NE; + aVal = SW; + } + } + Label lName = rotate(rName)*Label(name); + label(picL, lName, pName, aName); + Label lVal = rotate(rVal)*Label(val); + label(picL, lVal, pVal, aVal); + add(pic, picL, (end-beg)/2); + } + + void draw(picture pic=currentpicture) { + picture picT; + for (int i=0; i< pLine.length; i+=1) { + draw(picT, rotate(ang)*pLine[i], line); + if (cyclic(pLine[i])) + fill(picT, rotate(ang)*pLine[i], line); + } + for (int i=0; i< pMisc.length; i+=1) { + draw(picT, rotate(ang)*pMisc[i], misc); + if (cyclic(pMisc[i])) + fill(picT, rotate(ang)*pMisc[i], misc); + } + putlabel(picT); + add(pic, picT, beg); + } +} + +// --- Resistor (Resistencia) --- + +real rstlth=2mm; +int normal=0, variable=2; + +TwoTerminal resistor(pair beg, int type, real ang, string name, string val) +{ + path pLine, pMisc[]={}; + TwoTerminal term; + + pLine = (0,0)--(2rstlth,0)--(2.25rstlth,.75rstlth); + for (real i=.5; i<=2.5; i+=0.5) + pLine = pLine--((2.25+i)*rstlth,((-1)**(2i))*.75rstlth); + pLine = pLine -- (5rstlth,0)--(7rstlth,0); + if (type==normal) { + ; //pass + } else if (type==variable) { + ahlength=.8rstlth; + pMisc.push((2rstlth,-rstlth)--(5.5rstlth,rstlth)); + pMisc.push(miscahead((2rstlth,-rstlth)--(5.5rstlth,rstlth))); + } else { + write("Error, unrecognized resistor type",type); + } + term = TwoTerminal(beg, 7rstlth, ang, .8rstlth, .8rstlth, name, val, pLine, pMisc); + term.draw(); + return term; +} + +// --- Inductor (bobina) --- + +real coil=2mm; +int Up=0, Down=1; + +TwoTerminal inductor(pair beg, int type, real ang, string name, string val) +{ + path pLine; + TwoTerminal term; + + if (type==Up) { + pLine = (0,0)--(coil,0); + for (int i=2; i<=4; i+=1) + pLine = pLine{N}..{S}(i*coil,0); + pLine = pLine{N}..{S}(5coil,0)--(6coil,0); + } else if (type==Down) { + pLine = (0,0)--(coil,0); + for (int i=2; i<=4; i+=1) + pLine = pLine{S}..{N}(i*coil,0); + pLine = pLine{S}..{N}(5coil,0)--(6coil,0); + // the original makecirc changed labelangle to ang-180 + } else { + write("Error, unrecognized inductor type",type); + } + term = TwoTerminal(beg, 6coil, ang, coil, coil, name, val, pLine); + // the original makecirc used .5coil for lcharv + term.draw(); + return term; +} + +// --- Capacitor (condensador) --- + +real platsep=1mm; +int normal=0, electrolytic=1, variable=2, variant=3; + +TwoTerminal capacitor(pair beg, int type, real ang, string name, string val) +{ + path pLine[]={}, pMisc[]={}; + TwoTerminal term; + + pLine.push((0,0)--(3platsep,0)); + pLine.push((4platsep,0)--(7platsep,0)); + + if (type==normal) { + pLine.push((3platsep,-2.5platsep)--(3platsep,2.5platsep)); + pLine.push((4platsep,-2.5platsep)--(4platsep,2.5platsep)); + } else if (type==electrolytic) { + pLine.push((3platsep,-1.8platsep)--(3platsep,1.8platsep)); + pLine.push((2platsep,-2.5platsep)--(4platsep,-2.5platsep) + --(4platsep,+2.5platsep)--(2platsep,2.5platsep)); + } else if (type==variable) { + pLine.push((3platsep,-2.5platsep)--(3platsep,2.5platsep)); + pLine.push((4platsep,-2.5platsep)--(4platsep,2.5platsep)); + pMisc.push((platsep,-2.5platsep)--(6platsep,2.5platsep)); + ahlength=1.7platsep; + pMisc.push(miscahead((platsep,-2.5platsep)--(6platsep,2.5platsep))); + } else if (type==variant) { + pLine.push((3platsep,-2.5platsep)--(3platsep,2.5platsep)); + pLine.push((4.5platsep,-2.5platsep)..(4platsep,0)..(4.5platsep,2.5platsep)); + } else { + write("Error, unrecognized capacitor type",type); + } + term = TwoTerminal(beg, 7platsep, ang, 2.5platsep, 2.5platsep, name, val, pLine, pMisc); + term.draw(); + return term; +} + +// --- Diode (diodo) --- + +real diodeht=3.5mm; +int zener=1, LED=2; +// I droped the pin parameters, since other device (e.g. electrolytic +// capacitors) are also polarized. The positioning macros centerof, +// etc provide enough flexibility. + +TwoTerminal diode(pair beg, int type, real ang, string name, string val) +{ + path pLine[]={}, pMisc[]={}; + real lchar, lcharv; + TwoTerminal term; + + pLine.push((0,0)--(diodeht,0)--(diodeht,.5diodeht)--(2diodeht,0)--(diodeht,-.5diodeht)--(diodeht,0)); + pLine.push((2diodeht,0)--(3diodeht,0)); + lchar = 0.6diodeht; lcharv = 0.6diodeht; + + if (type==normal) { + pLine.push((2diodeht,-.5diodeht)--(2diodeht,.5diodeht)); + } else if (type==zener) { + pLine.push((2.5diodeht,-.5diodeht)--(2diodeht,-.5diodeht)--(2diodeht,.5diodeht)--(1.5diodeht,.5diodeht)); + } else if (type==LED) { + path a = (diodeht,.5diodeht)--(2diodeht,0); + pair u = unit((.5,1)); // perpendicular to a + path b = (0,0)--diodeht*u; + pLine.push((2diodeht,-.5diodeht)--(2diodeht,.5diodeht)); + lchar = 1.5diodeht; + pMisc.push(shift(point(a,reltime(a,0.25))+point(b,0.33))*((0,0)--diodeht*u)); + pMisc.push(shift(point(a,reltime(a,0.60))+point(b,0.33))*((0,0)--diodeht*u)); + pMisc.push(fullhead(pMisc[0], 0.4diodeht, 30)); + pMisc.push(fullhead(pMisc[1], 0.4diodeht, 30)); + } else { + write("Error, unrecognized capacitor type",type); + } + term = TwoTerminal(beg, 3diodeht, ang, lchar, lcharv, name, val, pLine, pMisc); + term.draw(); + return term; +} + +//--- Battery (bater'ia) --- + +real bsize = 6mm; + +TwoTerminal battery(pair beg, real ang, string name, string val) +{ + path pLine[]={}, pMisc[]={}; + real lchar, lcharv; + TwoTerminal term; + + pLine.push((0,0)--(0.4bsize,0)); + pLine.push((1.4bsize,0)--(1.8bsize,0)); + + for (int i=0; i<3; i+=1) { + pLine.push(((0.4+0.4i)*bsize, -0.2bsize)--((0.4+0.4i)*bsize, 0.2bsize)); + pLine.push(((0.6+0.4i)*bsize, -0.6bsize)--((0.6+0.4i)*bsize, 0.6bsize)); + } + lchar = 0.6bsize; lcharv = 0.6bsize; + + term = TwoTerminal(beg, 1.8bsize, ang, lchar, lcharv, name, val, pLine, pMisc); + term.draw(); + return term; +} + +//--- Switches (Llaves) --- + +int NO=0, NC=1; +real ssep=3mm, swt=1.2ssep; // TODO remove swt? + +/* `switch' is a Asymptote keyword (or it should be), so append SPST + * for Single Pole Single Throw. + */ +TwoTerminal switchSPST(pair beg, int type, real ang, string name, string val) +{ + path pLine[]={}, pMisc[]={}; + real lchar, lcharv; + TwoTerminal term; + + pLine.push((0,0)--(0.7ssep,0)); + pLine.push((1.7ssep,ssep/3)--(1.7ssep,0)--(2.4ssep,0)); + lchar = 0.6ssep; lcharv = 0.6ssep; + + if (type==NO) { + pLine.push((0.7ssep,0)--(1.8ssep,0.7ssep)); + } else if (type==NC) { + pLine.push((0.7ssep,0)--(2ssep,ssep/3)); + } else { + write("Error, unrecognized switchSPST type",type); + } + term = TwoTerminal(beg, 2.4ssep, ang, lchar, lcharv, name, val, pLine, pMisc); + term.draw(); + return term; +} + +//--- Current (Corriente) --- + +real isize=2mm; + +// adjusted from makecirc original to center arrowhead under text +TwoTerminal current(pair beg, real ang, string name, string val) +{ + path pLine[]={}, pMisc[]={}; + real lchar, lcharv; + TwoTerminal term; + lchar = 0.4isize; lcharv = 0.4isize; + pLine.push((0,0)--(1.5isize,0)); + pLine.push((1.5isize,0)--(2isize,0)); + pMisc.push(fullhead(pLine[0], isize, 45)); + term = TwoTerminal(beg, 2isize, ang, lchar, lcharv, name, val, pLine, pMisc); + term.draw(); + return term; +} + +//--- Sources (fuentes de alimentaci'on) --- + +real ssize=6mm; +int AC=0,DC=1,I=2,V=3; + +TwoTerminal source(pair beg, int type, real ang, string name, string val) +{ + path pLine[]={}, pMisc[]={}; + real len, lchar, lcharv; + TwoTerminal term; + + + if (type == AC || type == I || type == V) { + len = 2ssize; + lchar = 0.5ssize; lcharv = 0.5ssize; + pLine.push((0,0)--(.5ssize,0)); + pLine.push(shift((ssize,0))*scale(ssize/2)*unitcircle); + pLine.push((1.5ssize,0)--(2ssize,0)); + if (type == AC) { + pLine.push((2ssize/3,0ssize){NE}..{E}((1/3+.5)*ssize,.2ssize)..{SE}(ssize,0)..{E}((2/3+.5)*ssize,-.2ssize)..{NE}(4ssize/3,0)); + } else if (type == I) { + pLine.push((2ssize/3,0)--(4ssize/3,0)); + pLine.push(fullhead(pLine[3], 4ssize/15, 30)); + } else if (type == V) { + pLine.push((1.05ssize,0)--(1.45ssize,0)); + pLine.push((1.25ssize,-.2ssize)--(1.25ssize,.2ssize)); + pLine.push((.95ssize,0)--(.55ssize,0)); + } + } else if (type == DC) { + len = ssize; + lchar = 0.6ssize; lcharv = .6ssize; + pLine.push((0,0)--(0.4ssize,0)); + pLine.push((.6ssize,0)--(ssize,0)); + pLine.push((.4ssize,-.2ssize)--(.4ssize,.2ssize)); + pLine.push((.6ssize,-.6ssize)--(.6ssize,.6ssize)); + } + term = TwoTerminal(beg, len, ang, lchar, lcharv, name, val, pLine, pMisc); + term.draw(); + return term; +} + +/* + +//%%<--- Transistor --->%%% +newinternal npn, pnp, cnpn, cpnp, bjtlth; +npn=1; pnp=-1; cnpn=0; cpnp=2; bjtlth=7mm; + +vardef transistor@#(expr z,type,ang)= + save BJT; + pair T@#.B,T@#.E,T@#.C; % pines: Base, Emisor, Colector % + T@#.B=z; + T@#.E=(z+(bjtlth,-.75bjtlth)) rotatedaround(z,ang); + T@#.C=(z+(bjtlth,.75bjtlth)) rotatedaround(z,ang); + picture BJT; + BJT=nullpicture; + + addto BJT doublepath z--(z+(.5bjtlth,0)) withpen line; + addto BJT doublepath (z+(.5bjtlth,-.5bjtlth))--(z+(.5bjtlth,.5bjtlth)) withpen line; + addto BJT doublepath (z+(.5bjtlth,.2bjtlth))--(z+(bjtlth,.5bjtlth)) + --(z+(bjtlth,.75bjtlth)) withpen line; + + if type=npn: + addto BJT doublepath (z+(.5bjtlth,-.2bjtlth))--(z+(bjtlth,-.5bjtlth)) + --(z+(bjtlth,-.75bjtlth)) withpen line; + addto BJT contour bjtahead (z+(.5bjtlth,-.2bjtlth)) + --(z+(bjtlth,-.5bjtlth)) withpen line; + elseif type=cnpn: + addto BJT doublepath (z+(.5bjtlth,-.2bjtlth))--(z+(bjtlth,-.5bjtlth)) + --(z+(bjtlth,-.75bjtlth)) withpen line; + addto BJT contour bjtahead (z+(.5bjtlth,-.2bjtlth)) + --(z+(bjtlth,-.5bjtlth)) withpen line; + addto BJT doublepath fullcircle scaled 1.3bjtlth shifted (z+(.65bjtlth,0)) + withpen line; + elseif type=pnp: + addto BJT doublepath (z+(bjtlth,-.75bjtlth))--(z+(bjtlth,-.5bjtlth)) + --(z+(.5bjtlth,-.2bjtlth)) withpen line; + addto BJT contour bjtahead (z+(bjtlth,-.5bjtlth)) + --(z+(.5bjtlth,-.2bjtlth)) withpen line; + elseif type=cpnp: + addto BJT doublepath (z+(bjtlth,-.75bjtlth))--(z+(bjtlth,-.5bjtlth)) + --(z+(.5bjtlth,-.2bjtlth)) withpen line; + addto BJT contour bjtahead (z+(bjtlth,-.5bjtlth)) + --(z+(.5bjtlth,-.2bjtlth)) withpen line; + addto BJT doublepath fullcircle scaled 1.3bjtlth shifted (z+(.65bjtlth,0)) withpen line; + fi; + + draw BJT rotatedaround(z,ang); +enddef; + +//%%<--- Measurement instruments (Intrumentos de medicion)--->%%% +newinternal volt, ampere, watt; +volt=0; ampere=1; watt=2; + +vardef meains@#(expr z,type,ang,name)= + save meter; + pair mi@#.l, mi@#.r, mi@#.p; % pines % + mi@#.l=z; mi@#.r=(z+(2ssize,0)) rotatedaround(z,ang); + + picture meter; meter=nullpicture; + addto meter doublepath z--(z+(.5ssize,0)); + addto meter doublepath (z+(1.5ssize,0))--(z+(2ssize,0)); + if (type=volt) || (type=ampere): + addto meter doublepath fullcircle scaled ssize shifted (z+(ssize,0)); + if type=volt: + addto meter also thelabel(latex("\textsf{V}") scaled (ssize/6mm) + rotated (-ang), (z+(ssize,0))); + elseif type=ampere: + addto meter also thelabel(latex("\textsf{A}") scaled (ssize/6mm) + rotated (-ang), (z+(ssize,0))); + fi; + elseif (type=watt): + mi@#.p=(z+(ssize,-ssize)) rotatedaround(z,ang); + addto meter doublepath (z+(.5ssize,-.5ssize))--(z+(.5ssize,.5ssize)) + --(z+(1.5ssize,.5ssize))--(z+(1.5ssize,-.5ssize))--cycle; + addto meter doublepath (z+(ssize,-.5ssize))--(z+(ssize,-ssize)); + addto meter also thelabel(latex("\textsf{W}") scaled (ssize/6mm) + rotated (-ang), (z+(ssize,0))); + fi; + + draw meter rotatedaround(z,ang) withpen line; + + if labeling=rotatelabel: + if ((ang > (-90)) && (ang <= 90)) || ((ang > 270) && (ang <= 450)): + label(latex(name) rotatedaround (.5[mi@#.l,mi@#.r],ang), + (.5ssize+lbsep)*dir (90+ang) shifted .5[mi@#.l,mi@#.r]); + elseif ((ang > 90) && (ang <= 270)) || ((ang > (-270)) && (ang <= (-90))): + label(latex(name) rotatedaround (.5[mi@#.l,mi@#.r],180+ang), + (.5ssize+lbsep)*dir (90+ang) shifted .5[mi@#.l,mi@#.r]); + fi; + elseif labeling=norotatelabel: + if (ang = 0): + label.top(latex(name), (.5ssize+.25lbsep)*dir (90+ang) + shifted .5[mi@#.l,mi@#.r]); + elseif (ang > 0) && (ang < 90): + label.ulft(latex(name), (.5ssize)*dir (90+ang) + shifted .5[mi@#.l,mi@#.r]); + elseif (ang = 90): + label.lft(latex(name),(.5ssize+.25lbsep)*dir (90+ang) + shifted .5[mi@#.l,mi@#.r]); + elseif (90 < ang) && (ang < 180): + label.llft(latex(name),(.5ssize)*dir (90+ang) + shifted .5[mi@#.l,mi@#.r]); + elseif (ang = 180) || (ang = (-180)): + label.bot(latex(name), (.5ssize+.25lbsep)*dir (90+ang) + shifted .5[mi@#.l,mi@#.r]); + elseif ((ang > 180) && (ang < 270)) || ((ang > (-180)) && (ang < (-90))): + label.lrt(latex(name),(.5ssize)*dir (90+ang) + shifted .5[mi@#.l,mi@#.r]); + elseif (ang = 270) || (ang = (-90)): + label.rt(latex(name), (.5ssize+.25lbsep)*dir (90+ang) + shifted .5[mi@#.l,mi@#.r]); + elseif ((270 < ang) && (ang < 360)) || ((ang < 0) && (ang > (-90))): + label.urt(latex(name),(.5ssize)*dir (90+ang) + shifted .5[mi@#.l,mi@#.r]); + fi; + fi; +enddef; + +// --- Electrical machines (maquinas electricas) --- + +TwoTerminal motor(pair beg, real ang, string name, string val) +{ + path pLine; + TwoTerminal term; + + if (type==Up) { + pLine = (0,0)--(coil,0); + for (int i=2; i<=4; i+=1) + pLine = pLine{N}..{S}(i*coil,0); + pLine = pLine{N}..{S}(5coil,0)--(6coil,0); + } else if (type==Down) { + pLine = (0,0)--(coil,0); + for (int i=2; i<=4; i+=1) + pLine = pLine{S}..{N}(i*coil,0); + pLine = pLine{S}..{N}(5coil,0)--(6coil,0); + // original makecirc changed labelangle to ang-180 + } + term = TwoTerminal(beg, 6coil, ang, coil, coil, name, val, pLine); + // original makecirc used .5coil for lcharv + term.draw(); + return term; +} + M@#.D=z; M@#.B=(z+(2ssize,0)) rotatedaround(z,ang); + picture mot; mot=nullpicture; + + addto mot doublepath z--(z+(.4ssize,0)); + addto mot doublepath (z+(1.6ssize,0))--(z+(2ssize,0)); + addto mot doublepath fullcircle scaled ssize shifted (z+(ssize,0)); + addto mot also thelabel(latex("\textsf{M}") scaled (ssize/6mm) + rotated (-ang), (z+(ssize,0))); + + path p,q,r,s,ca,cb,c,hc; + p=(z+(.6ssize,.075ssize))--(z+(.4ssize,.075ssize)); + q=(z+(.4ssize,.075ssize))--(z+(.4ssize,-.075ssize)); + ca=(z+(.4ssize,-.075ssize))--(z+(.6ssize,-.075ssize)); + + + r=(z+(1.4ssize,.075ssize))--(z+(1.6ssize,.075ssize)); + s=(z+(1.6ssize,.075ssize))--(z+(1.6ssize,-.075ssize)); + cb=(z+(1.6ssize,-.075ssize))--(z+(1.4ssize,-.075ssize)); + + c=fullcircle scaled ssize shifted (z+(ssize,0)); + hc=halfcircle scaled ssize rotated 270 shifted (z+(ssize,0)); + + addto mot contour buildcycle(p,q,ca,c); + addto mot doublepath buildcycle(p,q,ca,c); + + addto mot contour buildcycle(cb,s,r,hc); + addto mot doublepath buildcycle(cb,s,r,hc); + + draw mot rotatedaround(z,ang) withpen line; + + putlabel(M@#.D,M@#.B,.5ssize,.5ssize,ang,name,val); +enddef; + +vardef generator@#(expr z,ang,name,val)= + save gen; + pair G@#.D, G@#.B; % pines % + G@#.D=z; G@#.B=(z+(2ssize,0)) rotatedaround(z,ang); + picture gen; gen=nullpicture; + + addto gen doublepath z--(z+(.5ssize,0)); + addto gen doublepath (z+(1.5ssize,0))--(z+(2ssize,0)); + addto gen doublepath fullcircle scaled ssize shifted (z+(ssize,0)); + addto gen also thelabel(latex("\textsf{G}") scaled (ssize/6mm) + rotated (-ang), (z+(ssize,0))); + + draw gen rotatedaround(z,ang) withpen line; + + putlabel(G@#.D,G@#.B,.5ssize,.5ssize,ang,name,val); +enddef; + +newinternal mid, Fe, auto; +mid=1; Fe=2; auto=3; + +vardef transformer@#(expr z,type,ang)= + save trafo; + pair tf@#.pi, tf@#.ps, tf@#.si, tf@#.ss, tf@#.m; + tf@#.pi=z; tf@#.ps=(z+(0,8coil)) rotatedaround(z,ang); + tf@#.si=(z+(2.4coil,0)) rotatedaround(z,ang); + tf@#.ss=(z+(2.4coil,8coil)) rotatedaround(z,ang); + tf@#.m=(z+(3.4coil,4coil)) rotatedaround(z,ang); + + picture trafo; trafo=nullpicture; + + if type=normal: + tf@#.pi=z; tf@#.ps=(z+(0,8coil)) rotatedaround(z,ang); + tf@#.si=(z+(2.4coil,0)) rotatedaround(z,ang); + tf@#.ss=(z+(2.4coil,8coil)) rotatedaround(z,ang); + addto trafo doublepath z--(z+(0,coil)){right}.. + for i=2 upto 6: {left}(z+(0,i*coil)){right}.. endfor + {left}(z+(0,7coil))--(z+(0,8coil)); + addto trafo doublepath (z+(coil,coil))--(z+(coil,7coil)); + addto trafo doublepath (z+(1.4coil,coil))--(z+(1.4coil,7coil)); + addto trafo doublepath (z+(2.4coil,0))--(z+(2.4coil,coil)){left}.. + for i=2 upto 6: {right}(z+(2.4coil,i*coil)){left}.. endfor + {right}(z+(2.4coil,7coil))--(z+(2.4coil,8coil)); + elseif type=mid: + tf@#.pi=z; tf@#.ps=(z+(0,8coil)) rotatedaround(z,ang); + tf@#.si=(z+(2.4coil,0)) rotatedaround(z,ang); + tf@#.ss=(z+(2.4coil,8coil)) rotatedaround(z,ang); + tf@#.m=(z+(3.4coil,4coil)) rotatedaround(z,ang); + addto trafo doublepath z--(z+(0,coil)){right}.. + for i=2 upto 6: {left}(z+(0,i*coil)){right}.. endfor + {left}(z+(0,7coil))--(z+(0,8coil)); + addto trafo doublepath (z+(coil,coil))--(z+(coil,7coil)); + addto trafo doublepath (z+(1.4coil,coil))--(z+(1.4coil,7coil)); + addto trafo doublepath (z+(2.4coil,0))--(z+(2.4coil,coil)){left}.. + for i=2 upto 6: {right}(z+(2.4coil,i*coil)){left}.. endfor + {right}(z+(2.4coil,7coil))--(z+(2.4coil,8coil)); + addto trafo doublepath (z+(2.4coil,4coil))--(z+(3.4coil,4coil)); + elseif type=Fe: + tf@#.pi=z rotatedaround(z,ang); tf@#.ps=(z+(0,5.3coil)) rotatedaround(z,ang); + tf@#.si=(z+(14coil,0)) rotatedaround(z,ang); + tf@#.ss=(z+(14coil,5.228coil)) rotatedaround(z,ang); + addto trafo doublepath z+(2coil,-2.5coil)--z+(12coil,-2.5coil) + --z+(12coil,7.5coil)--z+(2coil,7.5coil)--cycle; + addto trafo doublepath z+(4coil,-.5coil)--z+(10coil,-.5coil) + --z+(10coil,5.5coil)--z+(4coil,5.5coil)--cycle; + addto trafo doublepath z--z+(2coil,0)--z+(4coil,0.728coil) + {right}..{left}z+(4coil,1.3*coil); + for i=1 upto 4: + addto trafo doublepath z+(2coil,(i+.5)*coil){left}.. + {right}z+(2coil,i*coil)--z+(4coil,(i+0.728)*coil) + {right}..{left}z+(4coil,(i+1.3)*coil); + endfor; + addto trafo doublepath z+(2coil,5.3coil)--z+(0,5.3coil); + for i=0 upto 3: + addto trafo doublepath z+(10coil,i*coil){left}.. + {right}z+(10coil,(i+.5)*coil)--z+(12coil,(i+.5+0.728)*coil) + {right}..{left}z+(12coil,(i+.656)*coil); + endfor; + addto trafo doublepath z+(10coil,4coil){left}..{right} + z+(10coil,4.5coil)--z+(12coil,5.228coil)--z+(14coil,5.228coil); + addto trafo doublepath z+(12coil,0)--z+(14coil,0); + elseif type=auto: + tf@#.pi=z rotatedaround(z,ang); tf@#.ps=(z+(0,4coil)) rotatedaround(z,ang); + tf@#.si=(z+(4coil,-6coil)) rotatedaround(z,ang); + tf@#.ss=(z+(4coil,4coil)) rotatedaround(z,ang); + addto trafo doublepath z--z+(2coil,0); + addto trafo doublepath z+(2coil,-6coil)--z+(2coil,-5coil){right}.. + for i=2 upto 10: {left}(z+(2coil,(i-6)*coil)){right}.. endfor + {left}(z+(2coil,5coil))--z+(2coil,6coil)--z+(0,6coil); + addto trafo doublepath z+(2coil,6coil)--z+(4coil,6coil); + addto trafo doublepath z+(2coil,-6coil)--z+(4coil,-6coil); + fi; + + draw trafo rotatedaround(z,ang) withpen line; +enddef; + +//%%<--- Miscellaneous symbols --->%%% + +newinternal gndlth, implth, simple, shield; +gndlth=5mm; implth=7mm; simple=1; shield=2; + +vardef ground@#(expr z,type,ang)= + save GND; + pair gnd@#; % unico pin % + gnd@#=z; + picture GND; GND=nullpicture; + addto GND doublepath z--(z+(0,-.5gndlth)) withpen line; + if type=shield: + addto GND doublepath (z+(-.5gndlth,-.5gndlth))--(z+(.5gndlth,-.5gndlth)) withpen line; + addto GND doublepath (z+(-.35gndlth,-.6gndlth))--(z+(.35gndlth,-.6gndlth)) withpen line; + addto GND doublepath (z+(-.2gndlth,-.7gndlth))--(z+(.2gndlth,-.7gndlth)) withpen line; + elseif type=simple: + addto GND doublepath (z+(-.5gndlth,-.5gndlth))--(z+(.5gndlth,-.5gndlth)) + withpen pencircle scaled 2linewd; + fi; + draw GND rotatedaround(z,ang); +enddef; + +newinternal junctiondiam; +junctiondiam=1.25mm; + +vardef junction@#(expr z,name)(suffix $)= + pair J@#; J@#=z; + draw z withpen pencircle scaled junctiondiam; + label.$(latex(name),z); +enddef; + +vardef impedance@#(expr z,ang,name,val)= + save imp; + pair Z@#.l, Z@#.r; % pines % + Z@#.l=z; + Z@#.r=(z+(1.5implth,0)) rotatedaround(z,ang); + picture imp; imp=nullpicture; + + addto imp doublepath z--(z+(.25implth,0)); + addto imp doublepath (z+(.25implth,-.18implth))--(z+(.25implth,.18implth)) + --(z+(1.25implth,.18implth))--(z+(1.25implth,-.18implth))--cycle; + addto imp doublepath (z+(1.25implth,0))--(z+(1.5implth,0)); + + draw imp rotatedaround(z,ang) withpen line; + + putlabel(Z@#.l,Z@#.r,.2implth,.2implth,ang,name,val); +enddef; + +vardef lamp@#(expr z,ang,name,val)= + save ampl, p, q, r, s; + pair La@#.l,La@#.r; % pines % + La@#.l=z; La@#.r=(z+(2ssize,0)) rotatedaround(z,ang); + + picture ampl; ampl=nullpicture; + + addto ampl doublepath z--(z+(.5ssize,0)); + addto ampl doublepath fullcircle scaled ssize shifted (z+(ssize,0)); + addto ampl doublepath (z+(1.5ssize,0))--(z+(2ssize,0)); + + pair p, q, r, s; + p=(-ssize*dir 45 shifted (z+(ssize,0))--(z+(ssize,0))) intersectionpoint + (fullcircle scaled ssize shifted (z+(ssize,0))); + q=(ssize*dir 45 shifted (z+(ssize,0))--(z+(ssize,0))) intersectionpoint + (fullcircle scaled ssize shifted (z+(ssize,0))); + r=(-ssize*dir (-45) shifted (z+(ssize,0))--(z+(ssize,0))) intersectionpoint + (fullcircle scaled ssize shifted (z+(ssize,0))); + s=(ssize*dir (-45) shifted (z+(ssize,0))--(z+(ssize,0))) intersectionpoint + (fullcircle scaled ssize shifted (z+(ssize,0))); + + addto ampl doublepath p--q; + addto ampl doublepath r--s; + + draw ampl rotatedaround(z,ang) withpen line; + + putlabel(La@#.l,La@#.r,.5ssize,.5ssize,ang,name,val); +enddef; + + +//%%<--- Mesh current (corriente de malla) --->%%% + +newinternal cw, ccw; +cw=0; ccw=1; + +def imesh(expr c,wd,ht,dire,ang,name)= + save im,r; picture im; numeric r; + ahlength=3platsep; ahangle=20; + if ht > wd: r=.2wd elseif ht < wd: r=.2ht fi; + im=nullpicture; + if dire=cw: + addto im doublepath (xpart c - .5wd, ypart c - .5ht) + --(xpart c - .5wd, ypart c + .5ht-r){up} + ..{right}(xpart c - .5wd + r, ypart c + .5ht) + --(xpart c + .5wd - r, ypart c + .5ht){right} + ..{down}(xpart c + .5wd,ypart c + .5ht - r) + --(xpart c + .5wd,ypart c - .5ht + r){down} + ..{left}(xpart c + .5wd - r,ypart c - .5ht) + --(xpart c - .25wd, ypart c - .5ht); + addto im contour arrowhead (xpart c - .5wd, ypart c - .5ht) + --(xpart c - .5wd, ypart c + .5ht-r){up} + ..{right}(xpart c - .5wd + r, ypart c + .5ht) + --(xpart c + .5wd - r, ypart c + .5ht){right} + ..{down}(xpart c + .5wd,ypart c + .5ht - r) + --(xpart c + .5wd,ypart c - .5ht + r){down} + ..{left}(xpart c + .5wd - r,ypart c - .5ht) + --(xpart c - .25wd, ypart c - .5ht); + elseif dire=ccw: + addto im doublepath (xpart c + .5wd, ypart c - .5ht) + --(xpart c + .5wd, ypart c + .5ht-r){up} + ..{left}(xpart c + .5wd - r, ypart c + .5ht) + --(xpart c - .5wd + r, ypart c + .5ht){left} + ..{down}(xpart c - .5wd,ypart c + .5ht - r) + --(xpart c - .5wd,ypart c - .5ht + r){down} + ..{right}(xpart c - .5wd + r,ypart c - .5ht) + --(xpart c + .25wd, ypart c - .5ht); + addto im contour arrowhead (xpart c + .5wd, ypart c - .5ht) + --(xpart c + .5wd, ypart c + .5ht-r){up} + ..{left}(xpart c + .5wd - r, ypart c + .5ht) + --(xpart c - .5wd + r, ypart c + .5ht){left} + ..{down}(xpart c + .5wd,ypart c + .5ht - r) + --(xpart c - .5wd,ypart c - .5ht + r){down} + ..{right}(xpart c - .5wd + r,ypart c - .5ht) + --(xpart c + .25wd, ypart c - .5ht); + fi; + + if labeling=rotatelabel: + addto im also thelabel(latex("$" & name & "$"),c); + elseif labeling=norotatelabel: + addto im also thelabel(latex("$" & name & "$") rotatedaround(c,-ang),c); + fi; + + draw im rotatedaround (c,ang) withpen line; +enddef; + +//%%<--- Reostatos --->%%% + +newinternal rheolth, Rrheo, Lrheo; +rheolth=2mm; Rrheo=1; Lrheo=2; + +vardef rheostat@#(expr z,type,ang)= + save reo; picture reo; reo=nullpicture; + pair rh@#.i, rh@#.s, rh@#.r; + rh@#.i=z; rh@#.s=(z+(0,6rheolth)) rotatedaround(z,ang); + rh@#.r=(z+(3rheolth,6rheolth)) rotatedaround(z,ang); + + ahangle=20; ahlength=rheolth; + + if type=Lrheo: + addto reo doublepath (z+(6rheolth,-3rheolth))--(z+(4rheolth,-3rheolth)) + --(z+(4rheolth,-.7rheolth)); + addto reo contour arrowhead (z+(6rheolth,-3rheolth))--(z+(4rheolth,-3rheolth)) + --(z+(4rheolth,-.9rheolth)); + + addto reo doublepath z--(z+(rheolth,0)){down}.. for i=2 upto 4: + {up}(z+(i*rheolth,0)){down}.. endfor {up}(z+(5rheolth,0))--(z+(6rheolth,0)); + + reo=reo rotatedaround(z,90); + elseif type=Rrheo: + addto reo doublepath (z+(6rheolth,-3rheolth))--(z+(4rheolth,-3rheolth)) + --(z+(4rheolth,-.7rheolth)); + addto reo contour arrowhead (z+(6rheolth,-3rheolth))--(z+(4rheolth,-3rheolth)) + --(z+(4rheolth,-.9rheolth)); + + addto reo doublepath z--(z+(1.5rheolth,0))--(z+(1.75rheolth,.75rheolth))-- + for i=.5 step .5 until 2.5: (z+((1.75+i)*rheolth,((-1)**(2i))*.75rheolth))-- + endfor (z+(4.5rheolth,0))--(z+(6rheolth,0)) withpen line; + + reo=reo rotatedaround(z,90); + fi; + draw reo rotatedaround(z,ang) withpen line; +enddef; + +// Definiciones de las longitudes de centrado, +// las hago como macros para que cambien de +// valor cuando lo hagan las dimensiones +// caracter'isticas de cada s'imbolo. + +def res = 3.5rstlth enddef; % 1 +def ind = 3coil enddef; % 2 +def cap = 3.5platsep enddef; % 3 +def sac = ssize enddef; % 4 +def sv = ssize enddef; % 5 +def si = ssize enddef; % 6 +def sdc = .5ssize enddef; % 7 +def mot = ssize enddef; % 8 +def gen = ssize enddef; % 9 +def tra = 4coil enddef; %10 +def ins = ssize enddef; %11 +def dio = 1.5diodeht enddef; %12 +def bjt = .5bjtlth enddef; %13 +def imp = .75implth enddef; %14 +def lam = ssize enddef; %15 +def swt = 1.2ssep enddef; %16 +def bat = .9ssize enddef; %17 +def cur = 1.5platsep enddef; %18 + +// Variable to find the center of two pins, for aligning symbols. It returns the point +// and the input angle for the symbol that we want to place. + +struct Align { + pair c; + numeric phi; +} + +Align centreof@#(pair pin_beg, pair pin_end, lchar)= + pair c@#; numeric phi@#; + c@#= -lchar*dir angle(xpart(pin_end)-xpart(pin_beg), + ypart(pin_end)-ypart(pin_beg)) shifted .5[pin_beg,pin_end]; + phi@#=angle(xpart(pin_end)-xpart(pin_beg), + ypart(pin_end)-ypart(pin_beg)); +enddef; + +// Variable to center an element regarding the pins of another, at +// a distance «dist» of the same one. It returns the point in which we should +// place the symbol that we want to center. + +vardef centerto.@#(expr pinref_beg,pinref_end)(expr dist,elem)= + pair @#; + if (xpart(pinref_beg)=xpart(pinref_end)): + @#=(.5[pinref_beg,pinref_end]+(dist,-elem)) + elseif (ypart(pinref_beg)=ypart(pinref_end)): + @#=(.5[pinref_beg,pinref_end]+(-elem,dist)) + fi +enddef; + +// Macro to scale the circuit when it is concluded. + +def scalecirc expr factor = + currentpicture=currentpicture scaled factor +enddef; + +// END + +*/ diff --git a/asymptote/ElectroMag.asy b/asymptote/ElectroMag.asy new file mode 100644 index 0000000..7db486c --- /dev/null +++ b/asymptote/ElectroMag.asy @@ -0,0 +1,173 @@ +import geometry; +import Mechanics; + +// ---------------------- Charges ------------------------- + +struct Charge { + pair center; + real q; + real radius; + pen outline; + pen fill; + Label L; + + void operator init(pair center=(0,0), real q=1, real radius=2mm, pen outline=currentpen, pen fill=red, Label L="") { + this.center = center; + this.q = q; + this.radius = radius; + this.outline = outline; + this.fill = fill; + this.L = L; + } + + void draw(picture pic=currentpicture) { + frame picF; + path c = scale(radius)*unitcircle; + filldraw(picF, c, fill, outline); + // TODO: label + add(pic, picF, center); + } +} + +Charge pCharge(pair center=(0,0), real q=1, real radius=2mm, pen outline=currentpen, Label L="") +{ + Charge c = Charge(center=center, q=q, radius=radius, outline=outline, L=L, fill=red); + return c; +} + +Charge nCharge(pair center=(0,0), real q=-1, real radius=2mm, pen outline=currentpen, Label L="") +{ + Charge c = Charge(center=center, q=q, radius=radius, outline=outline, L=L, fill=blue); + return c; +} + +// ---------------------- Vectors ------------------------- + +Vector EField(pair center=(0,0), real mag=5mm, real dir=0, Label L="") +{ + Vector v = Vector(center=center, mag=mag, dir=dir, L=L, outline=rgb(1,0.5,0.2)); // orange + return v; +} + +Vector BField(pair center=(0,0), real mag=5mm, real dir=0, Label L="") +{ + Vector v = Vector(center=center, mag=mag, dir=dir, L=L, outline=rgb(0.1,1,0.2)); // green + return v; +} + +Vector Velocity(pair center=(0,0), real mag=5mm, real dir=0, Label L="") +{ + Vector v = Vector(center=center, mag=mag, dir=dir, L=L, outline=rgb(1,0.1,0.2)); // red + return v; +} + +// ---------------------- Forces ------------------------- + +Vector Force(pair center=(0,0), real mag=5mm, real dir=0, Label L="") +{ + Vector v = Vector(center=center, mag=mag, dir=dir, L=L, outline=rgb(0.1,0.2,1)); // blue + return v; +} + +// Force of a on b +Vector CoulombForce(Charge a, Charge b, Label L="", real scale=1mm, real unit=1mm) +{ + pair r = b.center - a.center; + real mag, dir; + mag = ((a.q*b.q)*(scale/length(r))^2)*unit; + dir = degrees(r); + Vector v = Force(center=b.center, mag=mag, dir=dir, L=L); + return v; +} + +void CoulombForces(Charge c[], real scale=1mm, real unit=1mm) +{ + Vector F; + string s; + for (int i=0; i 180) + direction = CW; + if (radius < 0) + direction = !direction; + path p = arc((0,0), fabs(radius), degrees(B-A), degrees(C-A), direction); + real t = reltime(p, 0.5); + pair P = midpoint(p); + pair tangent = dir(p, t); + if (direction == CW) tangent *= -1.0; + + pair label_rotate = tangent; + if (rotateLabel == false) + label_rotate = (1,0); + + draw(picF, p, outline); + label(pic = picF, + L = rotate(degrees(label_rotate)) * L, + position = P + unit(P) * pLabelSize.y / 2); + add(pic, picF, A); + } +} + +// TODO: ihat, ijhat +Vector hatVect (string name, pair center=(0,0), real dir=0) { + string L = replace("$\mathbf{\hat{X}}$", "X", name); + Vector v = Vector(center=center, mag=5mm, dir=dir, L=L, outline=rgb(0,0,0)); + return v; +} + +Vector ihat (pair center=(0,0), real dir=0) { + Vector v = hatVect(name="i", center=center, dir=dir); + return v; +} + +Vector jhat (pair center=(0,0), real dir=90) { + Vector v = hatVect(name="j", center=center, dir=dir); + return v; +} + +// ---------------------- Shapes ------------------------- + +struct Wire { + pair pFrom; + pair pTo; + pen outline; + Label L; + + void operator init(pair pFrom=(0,0), pair pTo=(5mm,0), pen outline=currentpen, Label L="") { + this.pFrom = pFrom; + this.pTo = pTo; + this.outline = outline; + this.L = L; + } + + void draw(picture pic=currentpicture, bool rotateLabel=true) { + picture picF; + picture picL; + label(picL, L); + pair pLabelSize = 1.2 * (max(picL)-min(picL)); + pair pDiff = pTo - pFrom; + path p = (0,0)--pDiff; + pair label_rotate=pDiff; + if (rotateLabel == false) + label_rotate=(1,0); + draw(picF, p, outline); + label(pic = picF, + L = rotate(degrees(label_rotate)) * L, + position = pDiff/2 + + unit(rotate(90)*pDiff) * pLabelSize.y / 2); + add(pic, picF, pFrom); + } +} + +struct Surface { + pair pFrom; + pair pTo; + real thickness; + pen outline; + pen filla; + pen fillb; + Label L; + + void operator init(pair pFrom=(0,0), pair pTo=(5mm,0), real thickness=5mm, pen outline=currentpen, pen filla=rgb(.5,.5,.5), pen fillb=rgb(.7,.7,.7), Label L="") { + this.pFrom = pFrom; + this.pTo = pTo; + this.thickness = thickness; + this.outline = outline; + this.filla = filla; + this.fillb = fillb; + this.L = L; + } + + void draw(picture pic=currentpicture, bool rotateLabel=true) { + picture picF; + picture picL; + label(picL, L); + pair pLabelSize = 1.2 * (max(picL)-min(picL)); + pair pDiff = pTo - pFrom; + pair pDepth = rotate(-90)*unit(pDiff)*thickness; + path p = (0,0) -- pDiff -- (pDiff+pDepth) -- pDepth -- cycle; + pair label_rotate=pDiff; + if (rotateLabel == false) + label_rotate=(1,0); + axialshade(pic=picF, g=p, pena=filla, a=(0,0), penb=fillb, + b=pDepth); + draw(picF, p, outline); + label(pic = picF, + L = rotate(degrees(label_rotate)) * L, + position = (pDiff+pDepth)/2); + add(pic, picF, pFrom); + } +} + +struct Spring { + pair pFrom; + pair pTo; + real k; + real width; + real dLength; // length of a single loop (when unstretched) + real deadLength; // length before loops start on each end + real unstretchedLength; + int nLoops; + pen outline; + Label L; + + void operator init(pair pFrom=(0,0), pair pTo=(5mm,0), real k=1, real width=3mm, real dLength=1mm, real deadLength=3mm, real unstretchedLength=12mm, pen outline=currentpen, Label L="") { + this.pFrom = pFrom; + this.pTo = pTo; + this.k = k; + this.width = width; + this.dLength = dLength; + this.unstretchedLength = unstretchedLength; + this.outline = outline; + this.L = L; + + this.nLoops = floor((unstretchedLength-2*deadLength)/dLength); + if (this.nLoops == 0) + this.nLoops = 1; + this.deadLength = (unstretchedLength-this.nLoops*dLength)/2; + } + + void draw(picture pic=currentpicture, bool rotateLabel=true) { + picture picF; + picture picL; + label(picL, L); + pair pLabelSize = 1.2 * (max(picL)-min(picL)); + pair pDiff = pTo - pFrom; + + real working_dLength = (length(pDiff) - 2*deadLength) / nLoops; + path p = (0,0)--(deadLength,0); + path loop = (0,0) + --(working_dLength/4, width/2) + --(working_dLength*3/4, -width/2) + --(working_dLength, 0); + pair loopStart; + for (int i=0; i