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October 26, 2011 13:26
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| %% Rysowanie diagramow sciezkowych w programie MetaPost | |
| %% *** (c) T.Przechlewski 2009 *** | |
| %% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% | |
| %% zmienna mierzalna: | |
| ux := 1mm ; %% jednostka | |
| %% | |
| rwd:=5ux; %% szerokosc prostokata | |
| rht:=3ux; %% wysokosc prostokata | |
| err:=4ux; %% dlugosc strzalki oznaczajacej blad | |
| %% czynniki: | |
| circle_diam := 9ux; %% srednica | |
| corr_d_err :=1.5ux; %% korekta `skosnosci' na strzalke bledu | |
| pair ex_shift; ex_shift = (1ux,0ux); %% dodatkowy parametr (patrz nizej) | |
| %% | |
| loading_pos := .72 ; | |
| path_coeff_pos := .4 ; | |
| %% Rysuje zmienna mierzalna (bez bledu pomiaru): | |
| def Rectangle (expr z, s) = | |
| %% z -- srodek prostokata; s -- etykieta | |
| path r ; | |
| r = (-rwd,rht)--(rwd,rht)--(rwd,-rht)--(-rwd,-rht)--cycle ; | |
| draw r shifted z; | |
| label(TEX(s), z ); | |
| enddef; | |
| %% Rysuje zmienna mierzalna (z bledem pomiaru): | |
| def ErRectangle (expr z, s, e, pos) = | |
| %% z -- srodek prostokata; s -- etykieta; e -- etykieta bledu; pos -- pozycja | |
| path r ; | |
| r = (-rwd,rht)--(rwd,rht)--(rwd,-rht)--(-rwd,-rht)--cycle ; | |
| pair jj, kk; | |
| draw r shifted z; | |
| if pos="l": | |
| jj = (-rwd, 0); kk = jj - (err ,0); | |
| drawarrow (kk -- jj) shifted z; | |
| label.top(TEX(e), kk shifted z ); | |
| elseif pos="r": | |
| jj = (rwd, 0); kk = jj + (err ,0); | |
| drawarrow (kk -- jj) shifted z; | |
| label.top(TEX(e), kk shifted z ); | |
| elseif pos="b": | |
| jj = (0, -rht); kk = jj - (0, err); | |
| drawarrow (kk -- jj) shifted z; | |
| label.lft(TEX(e), kk shifted z ); | |
| fi; | |
| label(TEX(s), z ); | |
| enddef; | |
| %% Rysuje czynnik (bez bledu pomiaru): | |
| def Circle (expr z, s) = | |
| %% z -- srodek prostokata; s -- etykieta | |
| draw fullcircle scaled circle_diam shifted z; | |
| label(TEX(s), z ); | |
| enddef; | |
| %% Rysuje czynnik (z bledem pomiaru): | |
| def ErCircle (expr z, s, d, pos) = | |
| %% z -- srodek prostokata; s -- etykieta; d -- etykieta bledu; pos -- pozycja | |
| draw fullcircle scaled circle_diam shifted z; | |
| pair jj, kk; | |
| jj = z + (0, .5 circle_diam); | |
| if pos="r": | |
| kk = jj + (+corr_d_err, err); | |
| drawarrow (kk -- jj) shifted ex_shift; | |
| label.rt(TEX(d), kk ) shifted ex_shift; | |
| elseif pos="b": | |
| kk = jj + (-corr_d_err, err); | |
| drawarrow (kk -- jj) shifted -ex_shift; | |
| label.rt(TEX(d), kk ) shifted -ex_shift; | |
| fi; | |
| label(TEX(s), z ); | |
| enddef; | |
| %% Rysuje prosta od czynnika do miary | |
| def CircleToRectangle(expr r,c, l) = | |
| %% r,c -- srodki czynnika i miary | |
| path rr, cc, uu; | |
| rr = ((-rwd,rht)--(rwd,rht)--(rwd,-rht)--(-rwd,-rht)--cycle) shifted r ; | |
| %% ** lepszy byłby środek boku, ale to wymaga rozważenia położenia prostokąta wzg koła ** | |
| cc = fullcircle scaled circle_diam shifted c ; | |
| uu = r -- c; | |
| pair jp_x, jp_y, pp, qq; | |
| jp_x = rr intersectionpoint uu; | |
| jp_y = cc intersectionpoint uu; | |
| drawarrow jp_y -- jp_x; | |
| pair lp; lp = loading_pos [jp_y, jp_x]; | |
| label.rt(TEX(l), lp ); | |
| enddef; | |
| %% Rysuje prosta od miary do czynnika (casue indicator) | |
| def RectangleToCircle(expr r,c, l) = | |
| %% r,c -- srodki czynnika i miary | |
| path rr, cc, uu; | |
| rr = ((-rwd,rht)--(rwd,rht)--(rwd,-rht)--(-rwd,-rht)--cycle) shifted r ; | |
| cc = fullcircle scaled circle_diam shifted c ; | |
| uu = r -- c; | |
| pair jp_x, jp_y, pp, qq; | |
| jp_x = rr intersectionpoint uu; | |
| jp_y = cc intersectionpoint uu; | |
| drawarrow jp_x -- jp_y; | |
| pair lp; lp = loading_pos [jp_y, jp_x]; | |
| label.rt(TEX(l), lp ); | |
| enddef; | |
| %% Rysuje prosta od czynnika do czynnika | |
| def CircleToCircle(expr r, c, rep, l ) = | |
| %% r,c -- srodki czynnikow | |
| %% rep -- jeżeli rep jest różne od "" zawiera symbol dla relacji zwrotnej | |
| %% wpisz "NUL" jeżeli nie ma być symbolu relacji zwrotnej | |
| %% l -- symbol relacji, jeżeli "" nie wpisuje nic | |
| %% symbole są umieszczane w punkcie równym path_coeff_pos odpowiednich strzałek | |
| path rr, cc, uu; | |
| rr = fullcircle scaled circle_diam shifted r ; | |
| cc = fullcircle scaled circle_diam shifted c ; | |
| uu = r -- c; | |
| pair jp_x, jp_y, pp, qq; | |
| jp_x = rr intersectionpoint uu; | |
| jp_y = cc intersectionpoint uu; | |
| if (ypart jp_x) = (ypart jp_y): xshift := 0ux; else: xshift := 1ux; fi; | |
| if (xpart jp_x) = (xpart jp_y): yshift := 0ux; else: yshift := 1ux; fi; | |
| %% rep zawiera symbol | |
| if rep <> "": | |
| path jjk ; jjk = (jp_x -- jp_y) shifted (xshift, yshift); drawarrow jjk; | |
| if rep <> "NUL": | |
| pair lpx; lpx = point path_coeff_pos of jjk; | |
| label.rt(TEX(rep), lpx ); | |
| fi | |
| fi; | |
| path jjl; jjl = jp_y -- jp_x; drawarrow jjl; | |
| pair lp; lp = point path_coeff_pos of jjl; | |
| label.rt(TEX(l), lp ); | |
| enddef; | |
| %% | |
| %% Rysuje obustronna strzalke od czynnika do czynnika | |
| def CurrCircleToCircle(expr r, c, d, s) = | |
| %% r,c -- srodki czynnikow; | |
| %% d -- wygiecie linii (wstaw kat w stopniach) | |
| %% s -- symbol relacji (jeżeli "" nie jest umieszczany) | |
| path rr, cc, uu; | |
| rr = fullcircle scaled circle_diam shifted r ; | |
| cc = fullcircle scaled circle_diam shifted c ; | |
| uu = r -- c; | |
| pair jp_x, jp_y, pp, qq; | |
| jp_x = rr intersectionpoint uu; | |
| jp_y = cc intersectionpoint uu; | |
| path corr ; corr = jp_y {dir d}.. jp_x ; | |
| drawdblarrow corr; | |
| if s <> "": | |
| pair zzp; | |
| zzp = point .5 of corr ; | |
| label.top(TEX(s), zzp ); | |
| fi | |
| enddef; | |
| %% | |
| %% Rysuje obustronna strzalke od miary do miary | |
| def CurrRectangleToRectangle(expr r, c, d, pos) = | |
| %% r,c -- srodki miar; d -- wygiecie linii (kat w stopniach) | |
| pair jp_x, jp_y; | |
| if pos="b": | |
| jp_x = (0,-rht) shifted r; jp_y = (0,-rht) shifted c; | |
| drawdblarrow jp_y {dir d}.. jp_x; | |
| elseif pos="t": | |
| jp_x = (0,rht) shifted r; jp_y = (0,rht) shifted c; | |
| drawdblarrow jp_y {dir d}.. jp_x; | |
| fi; | |
| enddef; | |
| %% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% | |
| vardef TEX primary s = | |
| %%%write "verbatimtex \input lcdpl.tex \input 8pt.tex etex;" to "mptextmp.mp"; | |
| write "btex "&s&" etex" to "mptextmp.mp"; | |
| write EOF to "mptextmp.mp"; | |
| scantokens "input mptextmp" | |
| enddef; | |
| %% | |
| %% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% | |
| %% Model jednoczynnikowy | |
| rwd:=4.25ux; | |
| zz:=10ux; %% odstęp między miarami | |
| zl:=22ux; %% odstęp między czynnikami | |
| %%Model pięcioczynnikowy ze swobodnie korelującymi czynnikami | |
| %% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% | |
| beginfig(6) %% pathdiagex2.mps | |
| fff := 24ux; | |
| path_coeff_pos := .4 ; | |
| %% czynnik #1 | |
| z1 = (40ux,25ux); Circle(z1, "$\xi_1$"); | |
| mc := x1 - fff; | |
| %%z15 = (mc +4ux,0ux); ErRectangle(z15, "$x_1$", "$\epsilon_1$", "l"); CircleToRectangle(z15,z1, "$\lambda_1$"); | |
| z10 = (mc,10ux); ErRectangle(z10, "$x_1$", "$\delta_1$", "l"); CircleToRectangle(z10,z1, "$\lambda_1$"); | |
| z11 = (mc,20ux); ErRectangle(z11, "$x_2$", "$\delta_2$", "l"); CircleToRectangle(z11,z1, "$\lambda_2$"); | |
| z12 = (mc,30ux); ErRectangle(z12, "$x_3$", "$\delta_3$", "l"); CircleToRectangle(z12,z1, "$\lambda_3$"); | |
| z13 = (mc +4ux,40ux); ErRectangle(z13, "$x_4$", "$\delta_4$", "l"); CircleToRectangle(z13,z1, "$\lambda_4$"); | |
| %% czynnik #2 | |
| z9 = (40ux,5ux); Circle(z9, "$\xi_2$"); | |
| mc := x9 + fff; | |
| loading_pos := .55 ; | |
| z95 = (10ux,-10ux); ErRectangle(z95, "$x_{5}$", "$\delta_{5}$", "b"); CircleToRectangle(z95,z9, "$\lambda_{5}$"); | |
| z96 = (25ux,-10ux); ErRectangle(z96, "$x_{6}$", "$\delta_{6}$", "b"); CircleToRectangle(z96,z9, "$\lambda_{6}$"); | |
| z97 = (40ux,-10ux); ErRectangle(z97, "$x_{7}$", "$\delta_{7}$", "b"); CircleToRectangle(z97,z9, "$\lambda_{7}$"); | |
| z98 = (55ux,-10ux); ErRectangle(z98, "$x_{8}$", "$\delta_{8}$", "b"); CircleToRectangle(z98,z9, "$\lambda_{8}$"); | |
| %% czynnik #2 | |
| z2 = (80ux,25ux); ErCircle(z2, "$\eta_1$", "$\zeta_1$", "r"); | |
| mc := x2 + fff; | |
| loading_pos := .5 ; | |
| %%z25 = (mc -4ux,0ux); ErRectangle(z25, "$x_6$", "$\epsilon_6$", "r"); CircleToRectangle(z25,z2, "$\lambda_6$"); | |
| z20 = (mc,10ux); ErRectangle(z20, "$x_9$", "$\epsilon_{9}$", "r"); CircleToRectangle(z20,z2, "$\lambda_{9}$"); | |
| z21 = (mc,20ux); ErRectangle(z21, "$x_{10}$", "$\epsilon_{10}$", "r"); CircleToRectangle(z21,z2, "$\lambda_{10}$"); | |
| z22 = (mc,30ux); ErRectangle(z22, "$x_{11}$", "$\epsilon_{11}$", "r"); CircleToRectangle(z22,z2, "$\lambda_{11}$"); | |
| z23 = (mc -4ux,40ux); ErRectangle(z23, "$x_{12}$", "$\epsilon_{12}$", "r"); CircleToRectangle(z23,z2, "$\lambda_{12}$"); | |
| %% czynnik #3 | |
| z3 = (80ux,5ux); ErCircle(z3, "$\eta_2$", "$\zeta_2$", "b"); | |
| loading_pos := .55 ; | |
| z35 = (70ux,-10ux); ErRectangle(z35, "$x_{13}$", "$\epsilon_{13}$", "b"); CircleToRectangle(z35,z3, "$\lambda_{13}$"); | |
| z36 = (85ux,-10ux); ErRectangle(z36, "$x_{14}$","$\epsilon_{14}$","b"); CircleToRectangle(z36,z3, "$\lambda_{14}$"); | |
| z37 = (98ux,-10ux); ErRectangle(z37, "$x_{15}$","$\epsilon_{15}$","b"); CircleToRectangle(z37,z3, "$\lambda_{15}$"); | |
| z38 = (106ux,0ux); ErRectangle(z38, "$x_{16}$","$\epsilon_{16}$","b"); CircleToRectangle(z38,z3, "$\lambda_{16}$"); | |
| CurrCircleToCircle(z1, z9, 120, "$\phi_{21}$"); %% nieanalizowana zależność | |
| CircleToCircle(z2,z1, "", "$\gamma_{11}$"); %% z1 = \epsilon_1, z2 = \eta_1 | |
| CircleToCircle(z2,z9, "", "$\gamma_{21}$"); %% z9 = \epsilon_2, z3 = \eta_2 | |
| CircleToCircle(z3,z9, "", "$\gamma_{22}$"); | |
| path_coeff_pos := .5 ; | |
| CircleToCircle(z3,z2, "{}", "$\beta_{12}$"); | |
| label.rt(TEX("$\beta_{21}$"), (82ux,17ux)); | |
| endfig; | |
| beginfig(5) %% pathdiagex.mps | |
| fff := 24ux; | |
| path_coeff_pos := .4 ; | |
| %% czynnik #1 | |
| z1 = (40ux,25ux); Circle(z1, "$\xi_1$" ); | |
| mc := x1 - fff; | |
| %%z15 = (mc +4ux,0ux); ErRectangle(z15, "$x_1$", "$\epsilon_1$", "l"); CircleToRectangle(z15,z1, "$\lambda_1$"); | |
| z10 = (mc,10ux); ErRectangle(z10, "$x_1$", "$\delta_1$", "l"); CircleToRectangle(z10,z1, "$\lambda_1$"); | |
| z11 = (mc,20ux); ErRectangle(z11, "$x_2$", "$\delta_2$", "l"); CircleToRectangle(z11,z1, "$\lambda_2$"); | |
| z12 = (mc,30ux); ErRectangle(z12, "$x_3$", "$\delta_3$", "l"); CircleToRectangle(z12,z1, "$\lambda_3$"); | |
| z13 = (mc +4ux,40ux); ErRectangle(z13, "$x_4$", "$\delta_4$", "l"); CircleToRectangle(z13,z1, "$\lambda_4$"); | |
| %% czynnik #2 | |
| z9 = (40ux,5ux); Circle(z9, "$\xi_2$" ); | |
| mc := x9 + fff; | |
| loading_pos := .55 ; | |
| z95 = (10ux,-10ux); ErRectangle(z95, "$x_{5}$", "$\delta_{5}$", "b"); CircleToRectangle(z95,z9, "$\lambda_{5}$"); | |
| z96 = (25ux,-10ux); ErRectangle(z96, "$x_{6}$", "$\delta_{6}$", "b"); CircleToRectangle(z96,z9, "$\lambda_{6}$"); | |
| z97 = (40ux,-10ux); ErRectangle(z97, "$x_{7}$", "$\delta_{7}$", "b"); CircleToRectangle(z97,z9, "$\lambda_{7}$"); | |
| z98 = (55ux,-10ux); ErRectangle(z98, "$x_{8}$", "$\delta_{8}$", "b"); CircleToRectangle(z98,z9, "$\lambda_{8}$"); | |
| %% czynnik #2 | |
| z2 = (80ux,25ux); ErCircle(z2, "$\eta_1$", "$\zeta_1$", "r"); | |
| mc := x2 + fff; | |
| loading_pos := .5 ; | |
| %%z25 = (mc -4ux,0ux); ErRectangle(z25, "$x_6$", "$\epsilon_6$", "r"); CircleToRectangle(z25,z2, "$\lambda_6$"); | |
| z20 = (mc,10ux); ErRectangle(z20, "$x_9$", "$\epsilon_9$", "r"); CircleToRectangle(z20,z2, "$\lambda_9$"); | |
| z21 = (mc,20ux); ErRectangle(z21, "$x_{10}$", "$\epsilon_{10}$", "r"); CircleToRectangle(z21,z2, "$\lambda_{10}$"); | |
| z22 = (mc,30ux); ErRectangle(z22, "$x_{11}$", "$\epsilon_{11}$", "r"); CircleToRectangle(z22,z2, "$\lambda_{11}$"); | |
| z23 = (mc -4ux,40ux); ErRectangle(z23, "$x_{12}$", "$\epsilon_{12}$", "r"); CircleToRectangle(z23,z2, "$\lambda_{12}$"); | |
| %% czynnik #3 | |
| z3 = (80ux,5ux); ErCircle(z3, "$\eta_2$", "$\zeta_2$", "b"); | |
| loading_pos := .55 ; | |
| z35 = (70ux,-10ux); ErRectangle(z35, "$x_{13}$", "$\epsilon_{13}$", "b"); CircleToRectangle(z35,z3, "$\lambda_{13}$"); | |
| z36 = (85ux,-10ux); ErRectangle(z36, "$x_{14}$","$\epsilon_{14}$","b"); CircleToRectangle(z36,z3, "$\lambda_{14}$"); | |
| z37 = (98ux,-10ux); ErRectangle(z37, "$x_{15}$","$\epsilon_{15}$","b"); CircleToRectangle(z37,z3, "$\lambda_{15}$"); | |
| z38 = (106ux,0ux); ErRectangle(z38, "$x_{16}$","$\epsilon_{16}$","b"); CircleToRectangle(z38,z3, "$\lambda_{16}$"); | |
| CircleToCircle(z2,z1, "", "$\gamma_{11}$"); %% z1 = \epsilon_1, z2 = \eta_1 | |
| CircleToCircle(z2,z9, "", "$\gamma_{21}$"); %% z9 = \epsilon_2, z3 = \eta_2 | |
| CircleToCircle(z3,z9, "", "$\gamma_{22}$"); | |
| path_coeff_pos := .5 ; | |
| CircleToCircle(z3,z2, "", "$\beta_{12}$"); | |
| endfig; | |
| beginfig(7) %% indicators_ex.mps | |
| fff := 24ux; | |
| corr_d_err :=-1ux; | |
| %% czynnik #1 | |
| z1 = (40ux,20ux); Circle(z1, "$\eta_1$"); | |
| mc := x1 - fff; | |
| z15 = (mc +8ux,0ux); ErRectangle(z15, "$x_1$", "$\epsilon_1$", "l"); CircleToRectangle(z15,z1, "$\lambda_1$"); | |
| z10 = (mc,10ux); ErRectangle(z10, "$x_2$", "$\epsilon_2$", "l"); CircleToRectangle(z10,z1, "$\lambda_2$"); | |
| z11 = (mc,20ux); ErRectangle(z11, "$x_3$", "$\epsilon_3$", "l"); CircleToRectangle(z11,z1, "$\lambda_3$"); | |
| z12 = (mc,30ux); ErRectangle(z12, "$x_4$", "$\epsilon_4$", "l"); CircleToRectangle(z12,z1, "$\lambda_4$"); | |
| z13 = (mc +8ux,40ux); ErRectangle(z13, "$x_5$", "$\epsilon_5$", "l"); CircleToRectangle(z13,z1, "$\lambda_5$"); | |
| %% formatywny | |
| z2 = (80ux,20ux); ErCircle(z2, "$\eta_2$", "$\delta_2$", "r"); | |
| mc := x2 + fff; | |
| loading_pos := .5 ; | |
| z25 = (mc -8ux,0ux); Rectangle(z25, "$x_6$"); RectangleToCircle(z25,z2, "$\lambda_6$"); | |
| z20 = (mc,10ux); Rectangle(z20, "$x_7$"); RectangleToCircle(z20,z2, "$\lambda_7$"); | |
| z21 = (mc,20ux); Rectangle(z21, "$x_8$"); RectangleToCircle(z21,z2, "$\lambda_8$"); | |
| z22 = (mc,30ux); Rectangle(z22, "$x_9$"); RectangleToCircle(z22,z2, "$\lambda_9$"); | |
| z23 = (mc -8ux,40ux); Rectangle(z23, "$x_{10}$"); RectangleToCircle(z23,z2, "$\lambda_{10}$"); | |
| %% Mimic: | |
| z3 = (60ux,20ux); ErCircle(z3, "$\eta_3$", "$\delta_3$", "r"); | |
| z35 = (x3 -12ux,38ux); Rectangle(z35, "$y_1$"); RectangleToCircle(z3,z35, "$\lambda_1$"); | |
| z30 = (x3 +12ux,38ux); Rectangle(z30, "$y_2$"); RectangleToCircle(z3,z30, "$\lambda_2$"); | |
| z36 = (x3 -14ux,8ux); Rectangle(z36, "$x_1$"); RectangleToCircle(z36,z3, "$\gamma_1$"); | |
| z37 = (x3 + 0ux,8ux); Rectangle(z37, "$x_2$"); RectangleToCircle(z37,z3, "$\gamma_2$"); | |
| z38 = (x3 +14ux,8ux); Rectangle(z38, "$x_3$"); RectangleToCircle(z38,z3, "$\gamma_3$"); | |
| CurrRectangleToRectangle(z36,z37, -140, "b"); | |
| CurrRectangleToRectangle(z37,z38, -140, "b"); | |
| CurrRectangleToRectangle(z36,z38, -140, "b"); | |
| corr_d_err :=1.5ux; | |
| endfig; | |
| beginfig(2)%% eucs5f.mps | |
| label.rt(btex \bf b) etex, (0ux,40ux) ); | |
| fof:=25ux; sof:=55ux; zof:=9ux; | |
| %% czynnik #1 | |
| z1 = (0zl,fof); Circle(z1, "$\eta_1$"); xx := x1 - rwd; | |
| z15 = (xx,zof); ErRectangle(z15, "$x_1$", "$\epsilon_1$", "b"); CircleToRectangle(z15,z1, ""); | |
| z16 = (xx+zz,zof); ErRectangle(z16, "$x_2$", "$\epsilon_2$", "b"); CircleToRectangle(z16,z1, ""); | |
| %% czynnik #2 | |
| z2 = (zl,fof); Circle(z2, "$\eta_2$"); xx := x2 - rwd; | |
| z25 = (xx,zof); ErRectangle(z25, "$x_3$", "$\epsilon_3$", "b"); CircleToRectangle(z25,z2, ""); | |
| z26 = (xx+zz,zof); ErRectangle(z26, "$x_4$", "$\epsilon_4$", "b"); CircleToRectangle(z26,z2, ""); | |
| %% czynnik #3 | |
| z3 = (2zl,fof); Circle(z3, "$\eta_3$"); xx := x3 - rwd; | |
| z35 = (xx,zof); ErRectangle(z35, "$x_5$", "$\epsilon_5$", "b"); CircleToRectangle(z35,z3, ""); | |
| z36 = (xx+zz,zof); ErRectangle(z36, "$x_6$", "$\epsilon_6$", "b"); CircleToRectangle(z36,z3, ""); | |
| %% czynnik #4 | |
| z4 = (3zl,fof); Circle(z4, "$\eta_4$"); xx := x4 - rwd; | |
| z45 = (xx,zof); ErRectangle(z45, "$x_7$", "$\epsilon_7$", "b"); CircleToRectangle(z45,z4, ""); | |
| z46 = (xx+zz,zof); ErRectangle(z46, "$x_8$", "$\epsilon_8$", "b"); CircleToRectangle(z46,z4, ""); | |
| %% czynnik #5 | |
| z5 = (4zl,fof); Circle(z5, "$\eta_5$"); xx := x5 - rwd; | |
| z55 = (xx,zof); ErRectangle(z55, "$x_9$", "$\epsilon_9$", "b"); CircleToRectangle(z55,z5, ""); | |
| z56 = (xx+zz,zof); ErRectangle(z56, "$x_{10}$", "$\epsilon_{10}$", "b"); CircleToRectangle(z56,z5, ""); | |
| z57 = (xx+2zz,zof + 4ux); ErRectangle(z57, "$x_{11}$", "$\epsilon_{11}$", "r"); CircleToRectangle(z57,z5, ""); | |
| z58 = (xx+2zz,zof + 15ux); ErRectangle(z58, "$x_{12}$", "$\epsilon_{12}$", "r"); | |
| CircleToRectangle(z58,z5, ""); | |
| CurrCircleToCircle(z1,z2, 120, ""); | |
| CurrCircleToCircle(z1,z3, 130, ""); | |
| CurrCircleToCircle(z1,z4, 140, ""); | |
| CurrCircleToCircle(z1,z5, 150, ""); | |
| CurrCircleToCircle(z2,z3, 130, ""); | |
| CurrCircleToCircle(z2,z4, 140, ""); | |
| CurrCircleToCircle(z2,z5, 140, ""); | |
| CurrCircleToCircle(z3,z4, 130, ""); | |
| CurrCircleToCircle(z3,z5, 140, ""); | |
| CurrCircleToCircle(z4,z5, 140, ""); | |
| endfig; | |
| beginfig(1)%% eucs1f.mps | |
| label.rt(btex \bf a) etex, (10ux,40ux) ); | |
| fof:=25ux; sof:=35ux; zof:=9ux; | |
| %% czynnik #1 | |
| z1 = (10ux,fof); xx := x1 - rwd; | |
| z9 = (60ux,sof); Circle(z9, "$\eta$"); | |
| z15 = (xx +4ux,zof +8ux); ErRectangle(z15, "$x_1$", "$\epsilon_1$", "b"); CircleToRectangle(z15,z9, ""); | |
| z16 = (xx+zz,zof); ErRectangle(z16, "$x_2$", "$\epsilon_2$", "b"); CircleToRectangle(z16,z9, ""); | |
| z25 = (xx+2zz,zof); ErRectangle(z25, "$x_3$", "$\epsilon_3$", "b"); CircleToRectangle(z25,z9, ""); | |
| z26 = (xx+3zz,zof); ErRectangle(z26, "$x_4$", "$\epsilon_4$", "b"); CircleToRectangle(z26,z9, ""); | |
| z35 = (xx+4zz,zof); ErRectangle(z35, "$x_5$", "$\epsilon_5$", "b"); CircleToRectangle(z35,z9, ""); | |
| z36 = (xx+5zz,zof); ErRectangle(z36, "$x_6$", "$\epsilon_6$", "b"); CircleToRectangle(z36,z9, ""); | |
| z45 = (xx+6zz,zof); ErRectangle(z45, "$x_7$", "$\epsilon_7$", "b"); CircleToRectangle(z45,z9, ""); | |
| z46 = (xx+7zz,zof); ErRectangle(z46, "$x_8$", "$\epsilon_8$", "b"); CircleToRectangle(z46,z9, ""); | |
| z55 = (xx+8zz,zof); ErRectangle(z55, "$x_9$", "$\epsilon_9$", "b"); CircleToRectangle(z55,z9, ""); | |
| z56 = (xx+9zz,zof); ErRectangle(z56, "$x_{10}$", "$\epsilon_{10}$", "b"); CircleToRectangle(z56,z9, ""); | |
| z57 = (xx+10zz,zof +3ux); ErRectangle(z57, "$x_{11}$", "$\epsilon_{11}$", "b"); CircleToRectangle(z57,z9, ""); | |
| z58 = (xx+11zz -4ux,zof +15ux); ErRectangle(z58, "$x_{12}$", "$\epsilon_{12}$", "b"); | |
| CircleToRectangle(z58,z9, ""); | |
| endfig; | |
| %% Model pięcioczynnikowy z czynnikiem drugiego stopnia | |
| beginfig(3) %% eucs5f1f.mps | |
| fof:=25ux; sof:=45ux; zof:=9ux; | |
| %% czynnik #1 | |
| z1 = (0zl,fof); Circle(z1, "$\eta_1$"); ErCircle(z1, "$\eta_1$", "$\delta_1$", "r"); | |
| xx := x1 - rwd; | |
| z15 = (xx,zof); ErRectangle(z15, "$x_1$", "$\epsilon_1$", "b"); CircleToRectangle(z15,z1, ""); | |
| z16 = (xx+zz,zof); ErRectangle(z16, "$x_2$", "$\epsilon_2$", "b"); CircleToRectangle(z16,z1, ""); | |
| %% czynnik #2 | |
| z2 = (1zl,fof); Circle(z2, "$\eta_2$"); ErCircle(z2, "$\eta_2$", "$\delta_2$", "r"); | |
| xx := x2 - rwd; | |
| z25 = (xx,zof); ErRectangle(z25, "$x_3$", "$\epsilon_3$", "b"); CircleToRectangle(z25,z2, ""); | |
| z26 = (xx+zz,zof); ErRectangle(z26, "$x_4$", "$\epsilon_4$", "b"); CircleToRectangle(z26,z2, ""); | |
| %% czynnik #3 | |
| z3 = (2zl,fof); Circle(z3, "$\eta_3$"); ErCircle(z3, "$\eta_3$", "$\delta_3$", "r"); | |
| xx := x3 - rwd; | |
| z35 = (xx,zof); ErRectangle(z35, "$x_5$", "$\epsilon_5$", "b"); CircleToRectangle(z35,z3, ""); | |
| z36 = (xx+zz,zof); ErRectangle(z36, "$x_6$", "$\epsilon_6$", "b"); CircleToRectangle(z36,z3, ""); | |
| %% czynnik #4 | |
| z4 = (3zl,fof); ErCircle(z4, "$\eta_4$", "$\delta_4$", "r"); | |
| xx := x4 - rwd; | |
| z45 = (xx,zof); ErRectangle(z45, "$x_7$", "$\epsilon_7$", "b"); CircleToRectangle(z45,z4, ""); | |
| z46 = (xx+zz,zof); ErRectangle(z46, "$x_8$", "$\epsilon_8$", "b"); CircleToRectangle(z46,z4, ""); | |
| %% czynnik #5 | |
| z5 = (4zl,fof); ErCircle(z5, "$\eta_5$", "$\delta_5$", "r"); | |
| xx := x5 - rwd; | |
| z55 = (xx,zof); ErRectangle(z55, "$x_9$", "$\epsilon_9$", "b"); CircleToRectangle(z55,z5, ""); | |
| z56 = (xx+zz,zof); ErRectangle(z56, "$x_{10}$", "$\epsilon_{10}$", "b"); CircleToRectangle(z56,z5, ""); | |
| z57 = (xx+2zz,zof + 4ux); ErRectangle(z57, "$x_{11}$", "$\epsilon_{11}$", "r"); CircleToRectangle(z57,z5, ""); | |
| z58 = (xx+2zz,zof + 15ux); ErRectangle(z58, "$x_{12}$", "$\epsilon_{12}$", "r"); | |
| CircleToRectangle(z58,z5, ""); | |
| z9 = (60ux,sof); Circle(z9, "$\eta_6$"); | |
| CircleToCircle(z1,z9, "", ""); | |
| CircleToCircle(z2,z9, "", ""); | |
| CircleToCircle(z3,z9, "", ""); | |
| CircleToCircle(z4,z9, "", ""); | |
| CircleToCircle(z5,z9, "", ""); | |
| endfig; | |
| beginfig(8)%% ctcm.mps | |
| fof:=25ux; sof:=55ux; zof:=9ux; | |
| %% czynnik #1 (metoda 1) | |
| z1 = (35ux,fof); Circle(z1, "$M_1$"); xx := 22ux - 4 rwd; | |
| z15 = (xx,zof); ErRectangle(z15, "$x_1$", "$\epsilon_1$", "b"); CircleToRectangle(z15,z1, ""); | |
| z16 = (xx+zz,zof); ErRectangle(z16, "$x_2$", "$\epsilon_2$", "b"); CircleToRectangle(z16,z1, ""); | |
| z17 = (xx+2zz,zof); ErRectangle(z17, "$x_3$", "$\epsilon_3$", "b"); CircleToRectangle(z17,z1, ""); | |
| z18 = (xx+3zz,zof); ErRectangle(z18, "$x_4$", "$\epsilon_4$", "b"); CircleToRectangle(z18,z1, ""); | |
| z19 = (xx+4zz,zof); ErRectangle(z19, "$x_5$", "$\epsilon_5$", "b"); CircleToRectangle(z19,z1, ""); | |
| %% czynnik #2 (metoda 2) | |
| z2 = (68ux,fof); Circle(z2, "$M_2$"); xx := 75ux - 3rwd; | |
| z25 = (xx,zof); ErRectangle(z25, "$x_6$", "$\epsilon_3$", "b"); CircleToRectangle(z25,z2, ""); | |
| z26 = (xx+zz,zof); ErRectangle(z26, "$x_7$", "$\epsilon_2$", "b"); CircleToRectangle(z26,z2, ""); | |
| z27 = (xx+2zz,zof); ErRectangle(z27, "$x_8$", "$\epsilon_3$", "b"); CircleToRectangle(z27,z2, ""); | |
| z28 = (xx+3zz,zof); ErRectangle(z28, "$x_9$", "$\epsilon_4$", "b"); CircleToRectangle(z28,z2, ""); | |
| CurrCircleToCircle(z1,z2, 140, ""); | |
| %% czynniki cech: | |
| fog:= -12ux; | |
| z3 = (1.0zl,fog); Circle(z3, "$C_1$"); | |
| CircleToRectangle(z15,z3, ""); | |
| CircleToRectangle(z18,z3, ""); | |
| CircleToRectangle(z26,z3, ""); | |
| z4 = (2.3zl,fog); Circle(z4, "$C_2$"); | |
| CircleToRectangle(z16,z4, ""); | |
| CircleToRectangle(z19,z4, ""); | |
| CircleToRectangle(z27,z4, ""); | |
| z5 = (3.5zl,fog); Circle(z5, "$C_3$"); | |
| CircleToRectangle(z17,z5, ""); | |
| CircleToRectangle(z25,z5, ""); | |
| CircleToRectangle(z28,z5, ""); | |
| CurrCircleToCircle(z3,z4, -140, ""); | |
| CurrCircleToCircle(z4,z5, -140, ""); | |
| CurrCircleToCircle(z3,z5, -140, ""); | |
| endfig; | |
| %% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% | |
| end. | |
| %% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% | |
| beginfig(99) | |
| %% czynnik #1 | |
| z1 = (40ux,20ux); ErCircle(z1, "$\eta_1$", "$\delta_1$", "r"); | |
| %% miary (refleksyjne): | |
| z15 = (10ux,0ux); ErRectangle(z15, "$x_1$", "$\epsilon_1$", "l"); CircleToRectangle(z15,z1, "$\lambda_1$"); | |
| z10 = (10ux,10ux); ErRectangle(z10, "$x_2$", "$\epsilon_2$", "l"); CircleToRectangle(z10,z1, "$\lambda_2$"); | |
| z11 = (10ux,20ux); ErRectangle(z11, "$x_3$", "$\epsilon_3$", "l"); CircleToRectangle(z11,z1, "$\lambda_3$"); | |
| z12 = (10ux,30ux); ErRectangle(z12, "$x_4$", "$\epsilon_4$", "l"); CircleToRectangle(z12,z1, "$\lambda_4$"); | |
| z13 = (10ux,40ux); ErRectangle(z13, "$x_5$", "$\epsilon_5$", "l"); CircleToRectangle(z13,z1, "$\lambda_5$"); | |
| %% czynnik #2 | |
| z2 = (90ux,20ux); ErCircle(z2, "$\eta_2$", "$\delta_2$", "r"); | |
| %% miary (refleksyjne): | |
| z25 = (120ux,0ux); ErRectangle(z25, "$x_6$", "$\epsilon_6$", "r"); CircleToRectangle(z25,z2, ""); | |
| z20 = (120ux,10ux); ErRectangle(z20, "2", "$\epsilon_7$", "r"); CircleToRectangle(z20,z2, ""); | |
| z21 = (120ux,20ux); ErRectangle(z21, "3", "$\epsilon_8$", "r"); CircleToRectangle(z21,z2, ""); | |
| z22 = (120ux,30ux); ErRectangle(z22, "4", "$\epsilon_9$", "r"); CircleToRectangle(z22,z2, ""); | |
| z23 = (120ux,40ux); ErRectangle(z23, "5", "$\epsilon_{10}$", "r"); CircleToRectangle(z23,z2, ""); | |
| %% czynnik #3 (mierzony formatywnie) | |
| z3 = (65ux,0ux); ErCircle(z3, "$\eta_3$", "$\delta_3$", "r"); | |
| %% miary (formatywne): | |
| z35 = (45ux,-15ux); ErRectangle(z35, "$x_{11}$", "$\epsilon_{11}$", "b"); RectangleToCircle(z35,z3, ""); | |
| z36 = (65ux,-15ux); Rectangle(z36, "$x_{12}$"); RectangleToCircle(z36,z3, ""); | |
| z37 = (85ux,-15ux); Rectangle(z37, "$x_{13}$"); RectangleToCircle(z37,z3, ""); | |
| %% x_13 i x_12 korelują swobodnie: | |
| CurrRectangleToRectangle(z36, z37, -130, "b"); | |
| CircleToCircle(z3,z1, "NUL", "$\gamma_1$"); | |
| CircleToCircle(z3,z2, "", "$\gamma_2$"); | |
| %% czynnik 1 i 2 korelują swobodnie: | |
| CurrCircleToCircle(z1,z2, 140, ""); | |
| label.rt(btex \bf Strukturalny model trzyczynnikowy etex, (30ux,42ux) ); | |
| endfig; | |
| bye | |
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