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|
%D \module
%D [ file=mp-chem.mp,
%D version=2009.05.13,
%D title=\CONTEXT\ \METAPOST\ graphics,
%D subtitle=chemicals,
%D author=Hans Hagen,
%D date=\currentdate,
%D copyright=\PRAGMA]
%C
%C This module is part of the \CONTEXT\ macro||package and is
%C therefore copyrighted by \PRAGMA. See licen-en.pdf for
%C details.
%D This module in incomplete and experimental.
% either consistent setting or not
if known context_chem : endinput ; fi ;
boolean context_chem ; context_chem := true ;
numeric
chem_width, chem_radical_min, chem_radical_max, chem_text_max, chem_circle_radius,
chem_rotation, chem_adjacent, chem_stack, chem_substituent, chem_direction, chem_setting_scale,
chem_setting_offset, chem_text_offset, chem_picture_offset, chem_center_offset, chem_substituent_offset,
chem_setting_l, chem_setting_r, chem_setting_t, chem_setting_b ;
boolean
chem_setting_axis,
chem_setting_fixedwidth, chem_setting_fixedheight,
chem_doing_pb, chem_text_trace ;
path
chem_setting_bbox ;
pair
chem_shift,
chem_adjacent_p, chem_substituent_p, chem_direction_p, chem_move_p ;
numeric
chem_width[], chem_angle[], chem_start[], chem_initialrot[], chem_initialmov[] ;
pair
chem_stack_d[],
chem_b_zero[], chem_n_zero[],
chem_r_max[], chem_r_min[],
chem_r_zero[], chem_mr_zero[], chem_pr_zero[], chem_crz_zero[],
chem_rt_zero[], chem_rtt_zero[], chem_rbt_zero[],
chem_mid_zero[] ;
path
chem_b_path[], chem_bx_path[], chem_eb_path[], chem_sr_path[], chem_br_path[],
chem_sb_path[], chem_msb_path[], chem_psb_path[],
chem_s_path[], chem_ss_path[], chem_mss_path[], chem_pss_path[],
chem_e_path[], chem_sd_path[], chem_bb_path[], chem_oe_path[],
chem_bd_path[], chem_bw_path[],
chem_ddt_path[], chem_ddb_path[], chem_ldt_path[], chem_ldb_path[], chem_rdt_path[], chem_rdb_path[],
chem_dbl_path[], chem_dbr_path[],
chem_ad_path[], chem_au_path[],
chem_r_path[], chem_rl_path[], chem_rr_path[],
chem_rb_path[], chem_prb_path[], chem_mrb_path[],
chem_srl_path[], chem_srr_path[],
chem_msr_path[], chem_psr_path[],
chem_mr_path[], chem_pr_path[],
chem_c_path[], chem_cc_path[],
chem_midt_path[], chem_midb_path[], chem_midst_path[], chem_midsb_path[] ;
chem_setting_scale := 1 ;
chem_base_width := 40pt ;
chem_text_offset := 3pt ;
chem_center_offset := 6pt ;
chem_picture_offset := 10pt ;
chem_substituent_offset := 10pt ;
chem_radical_min := 1.25 ;
chem_radical_max := 1.50 ;
chem_text_min := 0.75 ;
chem_text_max := 1.75 ;
chem_circle_radius := 0.80 ;
chem_circle_radius := 1.10 ;
chem_rotation := 1 ;
chem_adjacent := 0 ;
chem_substituent := 0 ;
chem_direction := 0 ;
chem_stack_n := 0 ;
chem_doing_pb := false ;
chem_shift := origin ;
chem_dot_factor := 4 ;
chem_text_trace := false ;
chem_bd_n := 4 ;
chem_bw_n := 4 ;
chem_bd_angle := 4 ;
chem_bb_angle := 4 ;
vardef chem_start_structure(expr n, l, r, t, b, scale, axis, fixedwidth, fixedheight, offset) =
chem_setting_axis := axis ;
chem_setting_l := l * scale ;
chem_setting_r := r * scale ;
chem_setting_t := t * scale ;
chem_setting_b := b * scale ;
chem_setting_fixedwidth := fixedwidth ;
chem_setting_fixedheight := fixedheight ;
chem_setting_offset := offset ;
if scale <> chem_setting_scale :
chem_setting_scale := scale ;
chem_init_all ;
fi ;
chem_rotation := 1 ;
chem_adjacent := 0 ;
chem_substituent := 0 ;
chem_direction := 0 ;
chem_stack_n := 0 ;
chem_doing_pb := false ;
chem_shift := origin ;
enddef ;
def chem_stop_structure =
currentpicture := currentpicture shifted - chem_shift ;
% axis here
if chem_setting_fixedwidth :
chem_setting_l := - xpart llcorner currentpicture ;
chem_setting_r := xpart urcorner currentpicture ;
fi ;
if chem_setting_fixedheight :
chem_setting_t := ypart urcorner currentpicture ;
chem_setting_b := - ypart llcorner currentpicture ;
fi ;
chem_setting_bbox :=
(-chem_setting_l,-chem_setting_b) -- ( chem_setting_r,-chem_setting_b) --
( chem_setting_r, chem_setting_t) -- (-chem_setting_l, chem_setting_t) -- cycle ;
% maybe put it behind the picture
if chem_setting_axis :
save stp ; stp := chem_base_width/ 2 * chem_setting_scale ;
save siz ; siz := chem_base_width/10 * chem_setting_scale ;
draw (-chem_setting_l,0) -- (chem_setting_r,0) withcolor blue ;
draw (0,-chem_setting_b) -- (0,chem_setting_t) withcolor blue ;
for i = 0 step stp until chem_setting_r : draw (i,-siz) -- (i,siz) withcolor blue ; endfor ;
for i = 0 step -stp until -chem_setting_l : draw (i,-siz) -- (i,siz) withcolor blue ; endfor ;
for i = 0 step stp until chem_setting_t : draw (-siz,i) -- (siz,i) withcolor blue ; endfor ;
for i = 0 step -stp until -chem_setting_b : draw (-siz,i) -- (siz,i) withcolor blue ; endfor ;
draw chem_setting_bbox withcolor blue ;
fi ;
setbounds currentpicture to chem_setting_bbox ;
enddef ;
def chem_start_component = enddef ;
def chem_stop_component = enddef ;
def chem_pb =
% draw boundingbox currentpicture withpen pencircle scaled 1mm withcolor blue ;
% draw origin withpen pencircle scaled 2mm withcolor blue ;
chem_doing_pb := true ;
enddef ;
def chem_pe =
% draw boundingbox currentpicture withpen pencircle scaled .5mm withcolor red ;
% draw origin withpen pencircle scaled 1mm withcolor red ;
currentpicture := currentpicture shifted - chem_shift ;
% draw origin withpen pencircle scaled .5mm withcolor green ;
chem_shift := origin ;
chem_doing_pb := false ;
enddef ;
vardef chem_do (expr p) =
if chem_doing_pb :
chem_doing_pb := false ;
% save pp ; pair pp ; pp := point 1 of ((origin -- p) enlonged chem_picture_offset) ;
% currentpicture := currentpicture shifted - pp ;
% chem_shift := chem_shift - center pp ;
currentpicture := currentpicture shifted - p ;
chem_shift := chem_shift - p ;
origin % nullpicture
else :
p
fi
enddef ;
vardef chem_b (expr n, f, t, r, c) =
chem_draw (n, chem_b_path[n], f, t, r, c) ;
enddef ;
vardef chem_sb (expr n, f, t, r, c) =
chem_draw (n, chem_sb_path[n], f, t, r, c) ;
enddef ;
vardef chem_s (expr n, f, t, r, c) =
chem_draw (n, chem_s_path[n], f, t, r, c) ;
enddef ;
vardef chem_ss (expr n, f, t, r, c) =
chem_draw (n, chem_ss_path[n], f, t, r, c) ;
enddef ;
vardef chem_mid (expr n, r, c) =
chem_draw_fixed (n, chem_midt_path[n], r, c) ;
chem_draw_fixed (n, chem_midb_path[n], r, c) ;
enddef ;
vardef chem_mids (expr n, r, c) =
chem_draw_fixed (n, chem_midst_path[n], r, c) ;
chem_draw_fixed (n, chem_midsb_path[n], r, c) ;
enddef ;
vardef chem_mss (expr n, f, t, r, c) =
chem_draw (n, chem_mss_path[n], f, t, r, c) ;
enddef ;
vardef chem_pss (expr n, f, t, r, c) =
chem_draw (n, chem_pss_path[n], f, t, r, c) ;
enddef ;
vardef chem_msb (expr n, f, t, r, c) =
chem_draw (n, chem_msb_path[n], f, t, r, c) ;
enddef ;
vardef chem_psb (expr n, f, t, r, c) =
chem_draw (n, chem_psb_path[n], f, t, r, c) ;
enddef ;
vardef chem_eb (expr n, f, t, r, c) =
chem_draw (n, chem_eb_path[n], f, t, r, c) ;
enddef ;
vardef chem_db (expr n, f, t, r, c) =
if n = 1 :
chem_draw (n, chem_msb_path [n], f, t, r, c) ;
chem_draw (n, chem_psb_path [n], f, t, r, c) ;
else :
chem_draw (n, chem_dbl_path [n], f, t, r, c) ;
chem_draw (n, chem_dbr_path [n], f, t, r, c) ;
fi ;
enddef ;
vardef chem_er (expr n, f, t, r, c) =
chem_draw (n, chem_rl_path[n], f, t, r, c) ;
chem_draw (n, chem_rr_path[n], f, t, r, c) ;
enddef ;
vardef chem_dr (expr n, f, t, r, c) =
chem_draw (n, chem_srl_path[n], f, t, r, c) ;
chem_draw (n, chem_srr_path[n], f, t, r, c) ;
enddef ;
vardef chem_ad (expr n, f, t, r, c) =
chem_draw_arrow(n, chem_ad_path[n], f, t, r, c) ;
enddef ;
vardef chem_au (expr n, f, t, r, c) =
chem_draw_arrow(n, chem_au_path[n], f, t, r, c)
enddef ;
vardef chem_r (expr n, f, t, r, c) =
if n < 0 :
chem_draw_vertical (n, chem_r_path[n], f, t, r, c) ;
else :
chem_draw (n, chem_r_path[n], f, t, r, c) ;
fi ;
enddef ;
vardef chem_rd (expr n, f, t, r, c) =
chem_dashed_normal (n, chem_r_path[n], f, t, r, c)
enddef ;
vardef chem_mrd (expr n, f, t, r, c) =
chem_dashed_normal (n, chem_mr_path[n], f, t, r, c)
enddef ;
vardef chem_prd (expr n, f, t, r, c) =
chem_dashed_normal (n, chem_pr_path[n], f, t, r, c)
enddef ;
vardef chem_br (expr n, f, t, r, c) =
chem_fill (n, chem_br_path[n], f, t, r, c )
enddef ;
vardef chem_rb (expr n, f, t, r, c) =
chem_fill (n, chem_rb_path[n], f, t, r, c)
enddef ;
vardef chem_mrb (expr n, f, t, r, c) =
chem_fill (n, chem_mrb_path[n], f, t, r, c)
enddef ;
vardef chem_prb (expr n, f, t, r, c) =
chem_fill (n, chem_prb_path[n], f, t, r, c)
enddef ;
vardef chem_mr (expr n, f, t, r, c) =
if n < 0 :
chem_draw_vertical(n, chem_mr_path[n], f, t, r, c)
else :
chem_draw (n, chem_mr_path[n], f, t, r, c)
fi
enddef ;
vardef chem_pr (expr n, f, t, r, c) =
if n < 0 :
chem_draw_vertical(n, chem_pr_path[n], f, t, r, c)
else :
chem_draw (n, chem_pr_path[n], f, t, r, c)
fi
enddef ;
vardef chem_sr (expr n, f, t, r, c) =
chem_draw (n, chem_sr_path[n], f, t, r, c)
enddef ;
vardef chem_msr (expr n, f, t, r, c) =
chem_draw (n, chem_msr_path[n], f, t, r, c)
enddef ;
vardef chem_psr (expr n, f, t, r, c) =
chem_draw (n, chem_psr_path[n], f, t, r, c)
enddef ;
vardef chem_c (expr n, f, t, r, c) =
chem_draw (n, chem_c_path[n], f, t, r, c)
enddef ;
vardef chem_cc (expr n, f, t, r, c) =
chem_draw (n, chem_cc_path[n], f, f, r, c)
enddef ;
vardef chem_cd (expr n, f, t, r, c) =
chem_dashed_connected (n, chem_c_path[n], f, t, r, c)
enddef ;
vardef chem_ccd (expr n, f, t, r, c) =
chem_dashed_normal (n, chem_cc_path[n], f, f, r, c)
enddef ;
vardef chem_rn (expr n, i, t) =
chem_rt (n,i,t) ;
enddef ;
vardef chem_rtn (expr n, i, t) =
chem_rtt(n,i,t) ;
enddef ;
vardef chem_rbn (expr n, i, t) =
chem_rbt(n,i,t) ;
enddef ;
vardef chem_tb (expr n, f, t, r, c) = % one
chem_draw (n, chem_msb_path[n], f, t, r, c) ;
chem_draw (n, chem_sb_path [n], f, t, r, c) ;
chem_draw (n, chem_psb_path[n], f, t, r, c) ;
enddef ;
vardef chem_ep (expr n, f, t, r, c) = % one
chem_draw (n, chem_e_path[n], f, t, r, c) ;
enddef ;
vardef chem_es (expr n, f, t, r, c) = % one
chem_draw_dot (n, center chem_e_path[n], f, t, r, c) ;
enddef ;
vardef chem_ed (expr n, f, t, r, c) = % one
chem_draw_dot (n, point 0 of chem_e_path[n], f, t, r, c) ;
chem_draw_dot (n, point 1 of chem_e_path[n], f, t, r, c) ;
enddef ;
vardef chem_et (expr n, f, t, r, c) = % one
chem_draw_dot (n, point 0 of chem_e_path[n], f, t, r, c) ;
chem_draw_dot (n, center chem_e_path[n], f, t, r, c) ;
chem_draw_dot (n, point 1 of chem_e_path[n], f, t, r, c) ;
enddef ;
vardef chem_sd (expr n, f, t, r, c) = % one
chem_draw (n, chem_ddt_path[n], f, t, r, c) ;
chem_draw (n, chem_ddb_path[n], f, t, r, c) ;
enddef ;
vardef chem_rdd (expr n, f, t, r, c) = % one
chem_draw (n, chem_ldt_path[n], f, t, r, c) ;
chem_draw (n, chem_ldb_path[n], f, t, r, c) ;
chem_draw (n, chem_psb_path[n], f, t, r, c) ;
enddef ;
vardef chem_ldd (expr n, f, t, r, c) = % one
chem_draw (n, chem_msb_path[n], f, t, r, c) ;
chem_draw (n, chem_rdt_path[n], f, t, r, c) ;
chem_draw (n, chem_rdb_path[n], f, t, r, c) ;
enddef ;
vardef chem_hb (expr n, f, t, r, c) = % one
chem_draw_dot (n, point 0 of chem_sb_path[n], f, t, r, c) ;
chem_draw_dot (n, center chem_sb_path[n], f, t, r, c) ;
chem_draw_dot (n, point 1 of chem_sb_path[n], f, t, r, c) ;
enddef ;
vardef chem_bb (expr n, f, t, r, c) = % one
if n < 0 :
chem_fill (n, chem_bb_path[n], 1, 1, r, c) ;
chem_b (n, f, t, r, c) ;
else :
chem_fill (n, chem_bb_path[n], f, t, r, c) ;
fi ;
enddef ;
vardef chem_oe (expr n, f, t, r, c) = % one
chem_draw (n, chem_oe_path[n], f, t, r, c) ;
enddef ;
vardef chem_bd (expr n, f, t, r, c) = % one
for i=0 upto 5 :
chem_draw (n, subpath (2i,2i+1) of chem_bd_path[n], f, t, r, c) ;
endfor ;
enddef ;
vardef chem_bw (expr n, f, t, r, c) = % one
chem_draw (n, chem_bw_path[n], f, t, r, c) ;
enddef ;
vardef chem_z_zero@#(text t) =
chem_text@#(t, chem_do(origin)) ;
enddef ;
vardef chem_cz_zero@#(text t) =
chem_text@#(t, chem_do(origin)) ;
enddef ;
vardef chem_z@#(expr n, p) (text t) =
if p = 0 :
chem_text@#(t, chem_do(origin)) ;
else :
chem_text@#(t, chem_do(chem_b_zero[n] rotated chem_ang(n,p))) ;
fi ;
enddef ;
vardef chem_cz@#(expr n, p) (text t) =
if n = 1 :
chem_c_text(t, chem_do(chem_crz_zero[n] rotated chem_ang(n,p))) ;
else :
chem_text@#(t, chem_do(chem_b_zero[n] rotated chem_ang(n,p))) ;
fi ;
enddef ;
vardef chem_midz@#(expr n, p) (text t) =
chem_text@#(t, chem_do(chem_mid_zero[n] rotated chem_ang(n,p))) ;
enddef ;
vardef chem_rz@#(expr n, p) (text t) =
if n < 0 :
% quite special
chem_text@#(t, chem_do(chem_r_zero[n] shifted (chem_b_zero[n] rotated chem_ang(n,p)))) ;
else :
chem_text@#(t, chem_do(chem_r_zero[n] rotated chem_ang(n,p))) ;
fi ;
enddef ;
vardef chem_crz@#(expr n, p) (text tx) =
chem_text(tx, chem_do(chem_crz_zero[n] rotated chem_ang(n,p))) ;
enddef ;
vardef chem_mrz@#(expr n, p) (text t) =
if n < 0 :
% quite special
chem_text@#(t, chem_do(chem_mr_zero[n] shifted (chem_b_zero[n] rotated chem_ang(n,p)))) ;
else :
chem_text@#(t, chem_do(chem_mr_zero[n] rotated chem_ang(n,p))) ;
fi ;
enddef ;
vardef chem_prz@#(expr n, p) (text t) =
if n < 0 :
% quite special
chem_text@#(t, chem_do(chem_pr_zero[n] shifted (chem_b_zero[n] rotated chem_ang(n,p)))) ;
else :
chem_text@#(t, chem_do(chem_pr_zero[n] rotated chem_ang(n,p))) ;
fi ;
enddef ;
vardef chem_rt@#(expr n, p) (text t) =
chem_text@#(t, chem_do(chem_rt_zero[n] rotated chem_ang(n,p))) ;
enddef ;
vardef chem_rtt@#(expr n, p) (text t) =
chem_text@#(t, chem_do(chem_rtt_zero[n] rotated chem_ang(n,p))) ;
enddef ;
vardef chem_rbt@#(expr n, p) (text t) =
chem_text@#(t, chem_do(chem_rbt_zero[n] rotated chem_ang(n,p))) ;
enddef ;
vardef chem_zt@#(expr n, p) (text t) =
if n = 1 :
chem_text@#(t, chem_do(chem_rt_zero[n] rotated chem_ang(n,p))) ;
else :
chem_text@#(t, chem_do(chem_n_zero[n] rotated chem_ang(n,p))) ;
fi ;
enddef ;
vardef chem_zn@#(expr n, p) (text t) =
if n = 1 :
chem_text@#(t, chem_do(chem_rt_zero[n] rotated chem_ang(n,p))) ;
else :
chem_text@#(t, chem_do(chem_n_zero[n] rotated chem_ang(n,p))) ;
fi ;
enddef ;
vardef chem_zbt@#(expr n, p) (text t) =
chem_text@#(t, chem_do(chem_rtt_zero[n] rotated chem_ang(n,p))) ;
enddef ;
vardef chem_zbn@#(expr n, p) (text t) =
chem_text@#(t, chem_do(chem_rtt_zero[n] rotated chem_ang(n,p))) ;
enddef ;
vardef chem_ztt@#(expr n, p) (text t) =
chem_text@#(t, chem_do(chem_rbt_zero[n] rotated chem_ang(n,p))) ;
enddef ;
vardef chem_ztn@#(expr n, p) (text t) =
chem_text@#(t, chem_do(chem_rbt_zero[n] rotated chem_ang(n,p))) ;
enddef ;
vardef chem_symbol(expr t) =
draw textext(t) ;
enddef ;
vardef chem_text@#(expr txt, z) = % adapted copy of thelabel@
save p ; picture p ;
p := textext(txt) ;
p := p
if (mfun_labtype@# >= 10) : shifted (0,ypart center p) fi
shifted (z + chem_text_offset*mfun_laboff@# - (mfun_labxf@#*lrcorner p + mfun_labyf@#*ulcorner p + (1-mfun_labxf@#-mfun_labyf@#)*llcorner p)) ;
if chem_text_trace :
draw z withpen pencircle scaled 2pt withcolor red ;
draw boundingbox p withpen pencircle scaled 1pt withcolor red ;
fi ;
draw p
enddef ;
vardef chem_c_text(expr txt, z) = % adapted copy of thelabel@
save p ; picture p ; p := textext(txt) ;
save b ; path b ; b := (boundingbox p) shifted z ;
save a ; pair a ; a := (origin--z) intersection_point b ;
if intersection_found :
draw p shifted (z enlonged arclength(a -- center b)) ;
else :
draw p shifted z ;
fi
% draw b withcolor green ;
% draw a withcolor red ;
enddef ;
vardef chem_ang (expr n, d) =
((-1 * (d-1) * chem_angle[n]) + (-chem_rotation+1) * 90 + chem_start[n]) % no ;
enddef ;
vardef chem_rot (expr n, d) =
chem_rotation := d ;
enddef ;
vardef chem_adj (expr n, d) =
chem_adjacent := d ;
enddef ;
vardef chem_sub (expr n, d) =
chem_substituent := d ;
enddef ;
vardef chem_dir (expr n, d) =
if n = 1 :
chem_direction_p := (origin - 2*center(chem_b_path[n] rotated chem_ang(n,d+1))) ;
currentpicture := currentpicture shifted chem_direction_p ;
chem_shift := chem_shift + chem_direction_p ;
fi ;
enddef ;
vardef chem_mov (expr n, d) =
if d = 0 :
currentpicture := currentpicture shifted - chem_shift ;
chem_shift := origin ;
else :
chem_move_p := (origin - 2*center(chem_b_path[n] rotated chem_ang(n,d+chem_initialmov[n]))) ;
currentpicture := currentpicture shifted chem_move_p ;
chem_shift := chem_shift + chem_move_p ;
fi ;
enddef ;
vardef chem_off (expr n, d) =
if (d = 1) or (d = 2) or (d = 8) : % positive
currentpicture := currentpicture shifted (-chem_setting_offset,0) ;
chem_shift := chem_shift + (-chem_setting_offset,0)
elseif (d = 4) or (d = 5) or (d = 6) : % negative
currentpicture := currentpicture shifted ( chem_setting_offset,0) ;
chem_shift := chem_shift + ( chem_setting_offset,0)
fi ;
enddef ;
vardef chem_set(expr n, m) =
if chem_adjacent > 0 :
chem_adjacent_d := xpart chem_b_zero[n] + xpart chem_b_zero[m] ;
if chem_adjacent = 1 : chem_adjacent_p := (-chem_adjacent_d, 0) ;
elseif chem_adjacent = 2 : chem_adjacent_p := (0, -chem_adjacent_d) ;
elseif chem_adjacent = 3 : chem_adjacent_p := ( chem_adjacent_d, 0) ;
elseif chem_adjacent = 4 : chem_adjacent_p := (0, chem_adjacent_d) ;
else : chem_adjacent_p := origin ;
fi ;
currentpicture := currentpicture shifted chem_adjacent_p ;
chem_shift := chem_shift + chem_adjacent_p ;
chem_adjacent := 0 ;
fi ;
if chem_substituent > 0 :
if m = 1 :
chem_substituent_d := xpart chem_crz_zero[n] + chem_substituent_offset ;
else :
chem_substituent_d := xpart chem_crz_zero[n] + xpart chem_b_zero[m] ;
fi ;
if chem_substituent = 1 : chem_substituent_p := (-chem_substituent_d, 0) ; % - ?
elseif chem_substituent = 2 : chem_substituent_p := (0, chem_substituent_d) ;
elseif chem_substituent = 3 : chem_substituent_p := ( chem_substituent_d, 0) ;
elseif chem_substituent = 4 : chem_substituent_p := (0, -chem_substituent_d) ;
else : chem_substituent_p := origin ;
fi ;
currentpicture := currentpicture shifted chem_substituent_p ;
chem_shift := chem_shift + chem_substituent_p ;
chem_substituent := 0 ;
fi ;
chem_rotation := chem_initialrot[m] ;
enddef ;
vardef chem_draw (expr n, path_fragment, from_point, to_point, linewidth, linecolor) =
for i:=from_point upto to_point:
draw (path_fragment rotated chem_ang(n,i)) withpen pencircle scaled linewidth withcolor linecolor ;
endfor ;
enddef ;
vardef chem_fill (expr n, path_fragment, from_point, to_point, linewidth, linecolor) =
for i:=from_point upto to_point:
fill (path_fragment rotated chem_ang(n,i)) withpen pencircle scaled 0 withcolor linecolor ;
endfor ;
enddef ;
vardef chem_dashed_normal (expr n, path_fragment, from_point, to_point, linewidth, linecolor) =
for i:=from_point upto to_point:
draw (path_fragment rotated chem_ang(n,i)) withpen pencircle scaled linewidth withcolor linecolor dashed evenly ;
endfor ;
enddef ;
vardef chem_dashed_connected (expr n, path_fragment, from_point, to_point, linewidth, linecolor) =
draw for i:=from_point upto to_point:
(path_fragment rotated chem_ang(n,i)) if i < to_point : -- fi
endfor withpen pencircle scaled linewidth withcolor linecolor dashed evenly ;
enddef ;
vardef chem_draw_dot (expr n, path_fragment, from_point, to_point, linewidth, linecolor) =
for i:=from_point upto to_point:
draw (path_fragment rotated chem_ang(n,i)) withpen pencircle scaled (chem_dot_factor*linewidth) withcolor linecolor ;
endfor ;
enddef ;
vardef chem_draw_fixed (expr n, path_fragment, linewidth, linecolor) =
draw (path_fragment rotated chem_ang(n,1)) withpen pencircle scaled linewidth withcolor linecolor ;
enddef ;
vardef chem_draw_arrow (expr n, path_fragment, from_point, to_point, linewidth, linecolor) =
for i:=from_point upto to_point:
drawarrow (path_fragment rotated chem_ang(n,i)) withpen pencircle scaled linewidth withcolor linecolor ;
endfor ;
enddef ;
vardef chem_draw_vertical (expr n, path_fragment, from_point, to_point, linewidth, linecolor) =
% quite special
for i:=from_point upto to_point:
draw (path_fragment shifted (chem_b_zero[n] rotated chem_ang(n,i))) withpen pencircle scaled linewidth withcolor linecolor ;
endfor ;
enddef ;
picture chem_stack_p[] ;
pair chem_stack_shift[] ;
vardef chem_save =
chem_stack_n := chem_stack_n + 1 ;
chem_stack_p[chem_stack_n] := currentpicture ;
chem_stack_shift[chem_stack_n] := chem_shift ;
chem_shift := origin ;
% chem_adjacent := 0 ;
% chem_substituent := 0 ;
% chem_rotation := 1 ;
currentpicture := nullpicture ;
enddef ;
vardef chem_restore =
if chem_stack_n > 0 :
currentpicture := currentpicture shifted - chem_shift ;
addto chem_stack_p[chem_stack_n] also currentpicture ;
currentpicture := chem_stack_p[chem_stack_n] ;
chem_stack_p[chem_stack_n] := nullpicture ;
chem_shift := chem_stack_shift[chem_stack_n] ;
chem_stack_n := chem_stack_n - 1 ;
fi ;
enddef ;
def chem_init_some(expr n, ratio, start, initialrot, initialmov) =
chem_width [n] := ratio * chem_base_width * chem_setting_scale ;
chem_angle [n] := 360/abs(n) ;
chem_start [n] := start ;
chem_initialrot[n] := initialrot ;
chem_initialmov[n] := initialmov ;
chem_b_zero [n] := (chem_width[n],0) rotated (chem_angle[n]/2) ;
chem_n_zero [n] := (chem_text_min*chem_width[n],0) rotated (chem_angle[n]/2) ;
chem_r_max [n] := chem_radical_max*chem_b_zero[n] ;
chem_r_path [n] := chem_b_zero[n] -- chem_r_max[n] ;
chem_mr_path [n] := chem_r_path [n] rotatedaround(chem_b_zero[n], (180-chem_angle[n])/2) ;
chem_pr_path [n] := chem_r_path [n] rotatedaround(chem_b_zero[n],-(180-chem_angle[n])/2) ;
chem_r_zero [n] := point 1 of chem_r_path [n] ;
chem_mr_zero [n] := point 1 of chem_mr_path[n] ;
chem_pr_zero [n] := point 1 of chem_pr_path[n] ;
chem_crz_zero [n] := point 1 of (chem_r_path[n] enlonged chem_center_offset) ;
chem_au_path [n] := subpath (0.2,0.8) of (chem_r_max[n] -- (chem_r_max[n] rotated chem_angle[n])) ;
chem_ad_path [n] := reverse(chem_au_path[n]) ;
chem_rt_zero [n] := (((chem_radical_max+chem_radical_min)/2)*chem_width[n],0) rotated (chem_angle[n]/2) ;
chem_rtt_zero [n] := chem_rt_zero[n] rotated + 10 ;
chem_rbt_zero [n] := chem_rt_zero[n] rotated - 10 ;
chem_b_path [n] := reverse(chem_b_zero[n] -- (chem_b_zero[n] rotated -chem_angle[n])) ;
chem_bx_path [n] := reverse(chem_b_zero[n] -- (chem_b_zero[n] rotated -chem_angle[n])) ; % ?
chem_sb_path [n] := subpath (0.25,0.75) of chem_b_path[n] ;
chem_s_path [n] := point 0 of chem_b_path[n] -- point 0 of (chem_b_path[n] rotated (2chem_angle[n])) ;
chem_ss_path [n] := subpath (0.25,0.75) of (chem_s_path[n]) ;
chem_pss_path [n] := subpath (0.00,0.75) of (chem_s_path[n]) ;
chem_mss_path [n] := subpath (0.25,1.00) of (chem_s_path[n]) ;
chem_mid_zero [n] := origin shifted (-.25chem_width[n],0) ;
chem_midst_path[n] := chem_mid_zero[n] -- (chem_width[n],0) rotated ( chem_angle[n] + chem_angle[n]/2) ;
chem_midsb_path[n] := chem_mid_zero[n] -- (chem_width[n],0) rotated (-chem_angle[n] - chem_angle[n]/2) ;
chem_midt_path [n] := subpath (0.25,1.00) of chem_midst_path [n] ;
chem_midb_path [n] := subpath (0.25,1.00) of chem_midsb_path [n] ;
chem_msb_path [n] := subpath (0.00,0.75) of chem_b_path[n] ;
chem_psb_path [n] := subpath (0.25,1.00) of chem_b_path[n] ;
chem_dbl_path [n] := chem_sb_path[n] shifted - (0.05[origin,center chem_sb_path[n]]) ; % parallel
chem_dbr_path [n] := chem_sb_path[n] shifted + (0.05[origin,center chem_sb_path[n]]) ;
chem_eb_path [n] := chem_sb_path[n] shifted - (0.25[origin,center chem_sb_path[n]]) ;
chem_sr_path [n] := chem_radical_min*chem_b_zero[n] -- chem_r_max[n] ;
chem_rl_path [n] := chem_r_path[n] paralleled (chem_base_width/20) ;
chem_rr_path [n] := chem_r_path[n] paralleled -(chem_base_width/20) ;
chem_srl_path [n] := chem_sr_path[n] paralleled (chem_base_width/20) ;
chem_srr_path [n] := chem_sr_path[n] paralleled -(chem_base_width/20) ;
chem_br_path [n] := point 1 of chem_sb_path[n] --
point 0 of chem_sb_path[n] rotatedaround(point 1 of chem_sb_path[n], -4) --
point 0 of chem_sb_path[n] rotatedaround(point 1 of chem_sb_path[n], 4) -- cycle ;
chem_rb_path [n] := chem_b_zero[n] -- chem_r_max[n] rotated -2 -- chem_r_max[n] -- chem_r_max[n] rotated 2 -- cycle ;
chem_mrb_path [n] := chem_rb_path[n] rotatedaround(chem_b_zero[n], (180-chem_angle[n])/2) ;
chem_prb_path [n] := chem_rb_path[n] rotatedaround(chem_b_zero[n],-(180-chem_angle[n])/2) ;
chem_msr_path [n] := chem_sr_path[n] rotatedaround(chem_b_zero[n], (180-chem_angle[n])/2) ;
chem_psr_path [n] := chem_sr_path[n] rotatedaround(chem_b_zero[n],-(180-chem_angle[n])/2) ;
% not yet ok:
% chem_c_path [n] := subpath (30/45, -30/45) of (fullcircle scaled (1.25*chem_circle_radius*chem_width[n]));
% chem_cc_path [n] := subpath (30/45,8-30/45) of (fullcircle rotated 90 scaled (1.25*chem_circle_radius*chem_width[n]));
chem_c_path [n] := subpath (30/45, -30/45) of (fullcircle scaled (chem_width[n]));
chem_cc_path [n] := subpath (30/45,8-30/45) of (fullcircle rotated 90 scaled (chem_width[n]));
enddef ;
def chem_init_three = chem_init_some(3,30/52 ,-60,1,2) ; enddef ; % 60
def chem_init_four = chem_init_some(4,30/42.5, 0,1,0) ; enddef ; % 45
def chem_init_five = chem_init_some(5,30/35 , 0,1,0) ; enddef ; % 36
def chem_init_six = chem_init_some(6, 1 , 0,1,0) ; enddef ; % 30
def chem_init_eight = chem_init_some(8,30/22.5, 0,1,0) ; enddef ; % 22.5
% bb R -R R Z -RZ +RZ
def chem_init_some_front(expr n, ratio, start, initialrot, initialmov) =
chem_init_some(n, ratio, start, initialrot, initialmov) ;
chem_bb_path [n] := chem_b_path[n] rotated -chem_angle[n] -- chem_b_path[n] -- chem_b_path[n] rotated chem_angle[n] --
(reverse(chem_b_path[n] shortened (chem_base_width/20))) paralleled (chem_base_width/20) --
cycle ;
chem_r_max [n] := chem_radical_max*chem_b_zero[n] ;
chem_mr_path [n] := origin -- origin shifted (0,-.25chem_base_width) ;
chem_pr_path [n] := origin -- origin shifted (0, .25*chem_base_width) ;
chem_r_path [n] := point 1 of chem_mr_path[n] -- point 1 of chem_pr_path[n] ;
chem_mr_zero [n] := point 1 of chem_mr_path[n] ;
chem_pr_zero [n] := point 1 of chem_pr_path[n] ;
enddef ;
def chem_init_five_front = chem_init_some_front(-5,30/35,0,2,0) ; enddef ; % 36
def chem_init_six_front = chem_init_some_front(-6, 1 ,0,2,0) ; enddef ; % 30
vardef chem_init_one =
chem_width [1] := .75 * chem_base_width * chem_setting_scale ;
chem_angle [1] := 360/8 ;
chem_start [1] := 0 ;
chem_initialrot[1] := 1 ;
chem_initialmov[1] := 1 ;
chem_b_zero [1] := (1.75*chem_width[1],0) ;
chem_r_min [1] := chem_radical_min*chem_b_zero[1] ;
chem_r_max [1] := chem_radical_max*chem_b_zero[1] ;
chem_r_path [1] := (.5*chem_width[1],0) -- (1.25*chem_width[1],0) ;
chem_r_zero [1] := point 1 of chem_r_path [1] ;
chem_b_path [1] := chem_r_path[1] rotated + (chem_angle[1]) ; % used for move here
chem_b_zero [1] := chem_r_zero[1] ;
chem_crz_zero [1] := chem_r_zero[1] enlonged chem_center_offset ;
chem_e_path [1] := (.5*chem_width[1],-.25*chem_width[1]) -- (.5*chem_width[1],.25*chem_width[1]) ;
chem_sb_path [1] := chem_r_path [1] ;
chem_msb_path [1] := chem_r_path [1] shifted (0,-.1chem_width[1]) ;
chem_psb_path [1] := chem_r_path [1] shifted (0, .1chem_width[1]) ;
chem_ddt_path [1] := subpath(0,.4) of chem_r_path [1] ;
chem_ddb_path [1] := subpath(.6,1) of chem_r_path [1] ;
chem_ldt_path [1] := chem_ddt_path [1] shifted (0,-.1chem_width[1]) ; % parallel
chem_ldb_path [1] := chem_ddb_path [1] shifted (0,-.1chem_width[1]) ;
chem_rdt_path [1] := chem_ddt_path [1] shifted (0, .1chem_width[1]) ;
chem_rdb_path [1] := chem_ddb_path [1] shifted (0, .1chem_width[1]) ;
save pr ; pair pr[] ;
pr0 := point 0 of chem_r_path[1] ;
pr1 := point 1 of chem_r_path[1] ;
chem_bb_path [1] := pr0 -- (pr1 rotatedaround(pr0,-chem_bb_angle)) -- (pr1 rotatedaround(pr0,chem_bb_angle)) -- cycle ;
chem_oe_path [1] := ((-20,0)--(10,0){up}..(20,10)..(30,0)..(40,-10)..(50.0,0)..(60,10)..(70,0)..(80,-10)..{up}(90,0)--(120,0))
xsized (.75*chem_width[1]) shifted pr0 ;
chem_rt_zero [1] := point .5 of chem_r_path[1] ;
chem_rtt_zero [1] := chem_rt_zero[1] rotated + (chem_angle[1]/2) ;
chem_rbt_zero [1] := chem_rt_zero[1] rotated - (chem_angle[1]/2) ;
% added by Alan Braslau (adapted to use shared variables):
save p ; pair p[] ;
p0 := pr1 rotatedaround(pr0, -chem_bd_angle) ;
p1 := pr1 rotatedaround(pr0, +chem_bd_angle) ;
p2 := p0 shifted - pr1 ;
p3 := p1 shifted - pr1 ;
chem_bd_path [1] :=
p0 -- p1 for i=chem_bd_n downto 0 :
-- p2 shifted (i/chem_bd_n)[pr1,pr0]
-- p3 shifted (i/chem_bd_n)[pr1,pr0]
endfor ;
chem_bw_path [1] :=
for i=0 upto chem_bw_n - 1 :
((i) /chem_bw_n)[pr0,pr1] .. ((i+.25)/chem_bw_n)[pr0,pr1] shifted p2 ..
((i+.50)/chem_bw_n)[pr0,pr1] .. ((i+.75)/chem_bw_n)[pr0,pr1] shifted -p2 ..
endfor pr1 ;
enddef ;
def chem_init_all =
chem_init_one ;
chem_init_three ;
chem_init_four ;
chem_init_five ;
chem_init_six ;
chem_init_eight ;
chem_init_five_front ;
chem_init_six_front ;
enddef ;
chem_init_all ;
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