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Rimessi i vecchi file del primo HomeWork che avevo sovrascritto con L…
…'HomeWork2 per sbaglio. Inseriti tutti gli esercizi dell'HW2 Inseriti tutti gli esercizi dell'HW2
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2014-04-11/images/china_pavilion_shanghai_world_expo_shanghai_china.jpg
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| Original file line number | Diff line number | Diff line change |
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| @@ -0,0 +1,38 @@ | ||
| <html> | ||
| <head> | ||
| <title>Homework1 - China pavilion Expo 2010 </title> | ||
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||
| </head> | ||
| <body> | ||
| <hr> | ||
| <h2><b>Nome: </b>Michele</h2> | ||
| <h2><b>Cognome: </b>D'Antimi</h2> | ||
| <h2><b>Matricola: </b>442995</h2> | ||
| <hr> | ||
| <h1>Documentazione ed immagini</h1> | ||
| <hr> | ||
| <ul> | ||
| Ho aggiunto nuove caratteristiche al modello 3D creato durante il primo Homework. La creazione dell'area circostante l'edificio è stato creata prendendo spunto | ||
| dalle immagini ed aggiungendo altri elementi che si potevano accostare bene all'ambiente. | ||
| Inizialmente è avvenuta una pianificazione su "carta" delle modifiche e delle aggiunte da effettuare e successivamente queste sono state riportate | ||
| su codice. | ||
| <br/> | ||
| <li><a href="http://en.wikipedia.org/wiki/China_pavilion_at_Expo_2010">China_pavilion</a></li> | ||
| <li><a href="http://www.google.it/imgres?client=firefox-a&hs=PY7&sa=X&rls=org.mozilla%3Ait%3Aofficial&channel=sb&biw=1366&bih=664&tbm=isch&tbnid=gGbkbzOKycyfTM%3A&imgrefurl=http%3A%2F%2Fwww.tuttocina.it%2Ffdo%2Fbetter-city-better-life.htm&docid=wAXvRTg4_GnqEM&imgurl=http%3A%2F%2Fwww.tuttocina.it%2Ffdo%2Fimages%2Fchina-pavilion.jpg&w=500&h=254&ei=OJ4sU4f0DoW0tAbEm4DoBg&zoom=1&ved=0CF0QhBwwAg&iact=rc&dur=511&page=1&start=0&ndsp=15">China_pavilion_vista frontale</a></li> | ||
| <li><a href="http://www.schindler.com/content/cn/internet/en/about-us/news/press-releases-2009/ride-on-schindler--view-china-pavilion-home-/_jcr_content/contentPar/textimage/image.spooler.textImageBig.500.jpg/1379660848030.jpg">China_pavilion_vista dall'alto</a></li> | ||
| <li><a href="http://images.china.cn/images1/200712/416040.jpg">China_pavilion_vista_laterale</a></li> | ||
| <li><a href="http://www.globeimages.net/data/media/89/china_pavilion_shanghai_world_expo_shanghai_china.jpg">China_pavilion</a></li> | ||
| </ul> | ||
| <hr> | ||
| <p></p> | ||
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| <h1>Link agli esercizi</h1> | ||
| <hr> | ||
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| <li><a href="python/exercise1.py">Exercise 1</a></li> | ||
| <li><a href="python/exercise2.py">Exercise 2</a></li> | ||
| <li><a href="python/exercise3.py">Exercise 3</a></li> | ||
| <li><a href="python/exercise4.py">Exercise 4</a></li> | ||
|
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||
| </body> | ||
| </html> |
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| from pyplasm import * | ||
| from larcc import * | ||
|
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| col=Color4f([(0.78),(0.04),(0.084)]) | ||
| green=Color4f([(0.133),(0.545),(0.133)]) | ||
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| ##################################################################################################################### | ||
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| def creaRampa (lung,q=30) : | ||
| grad2d = MKPOL([[[0,0],[0,0.2],[0.2,0.2]],[[1,2,3]],None]) | ||
| grad3d = MAP([S1,S3,S2])(PROD([grad2d,Q(q)])) | ||
| rampa=STRUCT([grad3d,T([1,3])([0.2,0.2])]*lung) | ||
| return rampa | ||
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| def creaBaseSupporto (lung,q=30): | ||
| supp2d = MKPOL([[[0,0],[0.2*lung,0],[0.2*lung,0.2*lung]],[[1,2,3]],None]) | ||
| supp3d = MAP([S1,S3,S2])(PROD([supp2d,Q(q)])) | ||
| return supp3d | ||
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| ######################################################################################################################################################## | ||
| #creo dei giardini sul tetto della costruzione | ||
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| giardino_supporto=COLOR(green)(MKPOL([[[35,0,5,],[85,0,5],[85,0,75],[35,0,75]],[[1,2,3,4]],None])) | ||
| giardino_supporto2=COLOR(green)(MKPOL([[[55,0,55],[55,0,75],[5,0,75],[5,0,55]],[[1,2,3,4]],None])) | ||
| giardino_supporto3=COLOR(green)(MKPOL([[[5,0,125,],[5,0,145],[95,0,125],[95,0,155]],[[1,2,3,4]],None])) | ||
| giardino_supporto4=T(2)(0.1)(COLOR(green)(MKPOL([[[95,0,125,],[35,0,195],[35,0,125],[95,0,195]],[[1,2,3,4]],None]))) | ||
| giardino_supporto5=COLOR(green)(MKPOL([[[115,0,5,],[190,0,5],[145,0,65],[115,0,75]],[[1,2,3,4]],None])) | ||
| giardino_supporto6=COLOR(green)(MKPOL([[[120,0,125,],[185,0,145],[194,0,125],[120,0,155]],[[1,2,3,4]],None])) | ||
| giardino_1=T(2)(0.1)(STRUCT([giardino_supporto,giardino_supporto2, giardino_supporto3, giardino_supporto4, giardino_supporto5, giardino_supporto6])) | ||
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| ######################################################################################################################################################## | ||
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| #creao la strada che porta alla costruzione | ||
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| strada=T([1,2,3])([10,0.1,80])(CUBOID([170,0.1,30])) | ||
| strada_bordo_1=COLOR(BLACK)(T([1,2,3])([10,0.3,80])(CUBOID([170,0.1,5]))) | ||
| strada_bordo_2=T(3)(25)(strada_bordo_1) | ||
|
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| ######################################################################################################################################################### | ||
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| colonna_rossa3D=COLOR(col)(INSR(PROD)([Q(1.5),Q(10),Q(1.5)])) | ||
| colonne_orizz_rosse3D=STRUCT([colonna_rossa3D,T(1)(2.5)]*3+[T(1)(12),colonna_rossa3D]+[T(1)(2.5),colonna_rossa3D]*2) | ||
| colonne_vertic_rosse3D=T([1,3])([9,9])(STRUCT([colonne_orizz_rosse3D,T(3)(2.5)]*3+[T(3)(13),colonne_orizz_rosse3D]+[T(3)(2.5),colonne_orizz_rosse3D]*2)) | ||
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| finestra3D=T(3)(9)(COLOR(BLACK)(INSR(PROD)([Q(3.5),Q(10),Q(3.5)]))) | ||
| finestre_orizz_3D=T([1,3])([10.5,1.5])(STRUCT([finestra3D,T(1)(19.5)]*2)) | ||
| finestre_vertic_3D=STRUCT([finestre_orizz_3D,T(3)(20.5)]*2) | ||
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| colonna_primo_livello3D=COLOR(col)(T([1,2,3])([7.5,10,9])(INSR(PROD)([Q(29),Q(1.5),Q(1.5)]))) | ||
| colonne_primo_livello3D=STRUCT([colonna_primo_livello3D,T(3)(2.5)]*3+[T(3)(13),colonna_primo_livello3D]+[T(3)(2.5),colonna_primo_livello3D]*2) | ||
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| colonne_sec_livello3D=T(2)(1.5)(colonne_primo_livello3D) | ||
| colonne_sec_livello3D=COLOR(col)(MAP([S3,S2,S1])(colonne_sec_livello3D)) | ||
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| colonna_ter_livello3D=COLOR(col)(T([1,2,3])([6,13,6.5])(INSR(PROD)([Q(33),Q(1.5),Q(1.5)]))) | ||
| colonne_ter_livello3D=T(3)(2)(STRUCT([colonna_ter_livello3D,T(3)(2.5)]*3+[T(3)(3.5),colonna_ter_livello3D]+[T(3)(3.5),colonna_ter_livello3D]*4)) | ||
| colonne_quar_livello3D=T([2,3])([1.5,-1])(colonne_ter_livello3D) | ||
| colonne_quar_livello3D=COLOR(col)(MAP([S3,S2,S1])(colonne_quar_livello3D)) | ||
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| colonna_quin_livello3D=COLOR(col)(T([1,2,3])([4.5,16,4.5])(INSR(PROD)([Q(37),Q(1.5),Q(1.5)]))) | ||
| colonne_quin_livello3D=T(3)(3)(STRUCT([colonna_quin_livello3D,T(3)(2.5)]*5+[T(3)(5.5),colonna_quin_livello3D]+[T(3)(3.5),colonna_quin_livello3D]*3)) | ||
| colonne_ses_livello3D=T([2,3])([1.5,-1])(colonne_quin_livello3D) | ||
| colonne_ses_livello3D=COLOR(col)(T(1)(2)(MAP([S3,S2,S1])(colonne_ses_livello3D))) | ||
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| colonna_sett_livello3D=COLOR(col)(T([1,2,3])([4,19,3])(INSR(PROD)([Q(39),Q(1.5),Q(1.5)]))) | ||
| colonne_sett_livello3D=T(3)(3)(STRUCT([colonna_sett_livello3D,T(3)(2.5)]*4+[T(3)(5.5),colonna_sett_livello3D]+[T(3)(3.5),colonna_sett_livello3D]*5)) | ||
| colonne_ott_livello3D=T([2,3])([1.5,-1])(colonne_sett_livello3D) | ||
| colonne_ott_livello3D=COLOR(col)(T(1)(3)(MAP([S3,S2,S1])(colonne_ott_livello3D))) | ||
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| colonna_nono_livello3D=COLOR(col)(T([1,2,3])([1.5,22,2])(INSR(PROD)([Q(43),Q(1.5),Q(1.5)]))) | ||
| colonne_nono_livello3D=T(3)(2)(STRUCT([colonna_nono_livello3D,T(3)(2.5)]*5+[T(3)(5.5),colonna_nono_livello3D]+[T(3)(3.5),colonna_nono_livello3D]*5)) | ||
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| colonne_decimo_livello3D=T([2,3])([1.5,-1])(colonne_nono_livello3D) | ||
| colonne_decimo_livello3D=COLOR(col)(T(1)(3)(MAP([S3,S2,S1])(colonne_decimo_livello3D))) | ||
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| #creo gli oggetti sul tetto | ||
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| tetto=COLOR(col) (T([1,2,3])([1.5,25,1.5])(INSR(PROD)([Q(43),Q(1),Q(43)]))) | ||
| pianale= T([1,2,3])([1.5,25,1.5])(INSR(PROD)([Q(43),Q(1.3),Q(43)])) | ||
| prato= COLOR(GRAY)(T([1,2,3])([3,25,3])(INSR(PROD)([Q(40),Q(1.5),Q(40)]))) | ||
|
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| #edificio sul tetto senza le porte | ||
| edificio_alto_senza_porte=PROD([Q(8),Q(4)]) | ||
| edificio_alto_senza_porte_uno=T([1,2])([10.5,26.5])(COLOR(col)(edificio_alto_senza_porte)) | ||
| edificio_alto_senza_porte_due=T([1,2])([25.5,26.5])(COLOR(col)(edificio_alto_senza_porte)) | ||
| tetto_edificio=T([1,2])([10,30.5])(COLOR(col)(PROD([Q(24),Q(1)]))) | ||
| ed=STRUCT([edificio_alto_senza_porte_uno,edificio_alto_senza_porte_due,tetto_edificio]) | ||
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| #creo i due edifici sul tetto con il rispettivo tetto | ||
| edificio=COLOR(col)(T(3)(12)(PROD([ed,Q(8)]))) | ||
| edificio2=COLOR(col)(T(3)(26)(PROD([ed,Q(8)]))) | ||
| tetto_edificio3D=T([1,3])([-1,45])(R([3,1])(PI/2)(COLOR(col)(T(3)(26)(PROD([tetto_edificio,Q(9)]))))) | ||
| tetto_edificio3D_2=T(1)(-15)(tetto_edificio3D) | ||
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| percorso_tetto=T([1,2,3])([11,32,13.5])(CUBOID([7,0.1,19])) | ||
| percorso_tetto_2=T([1,2])([15,-0.4])(percorso_tetto) | ||
| percorso_tetto_3=T([1,2,3])([11,32,12.6])(CUBOID([22,0.1,7])) | ||
| percorso_tetto_4=T(3)(14)(percorso_tetto_3) | ||
| percorsi_tetto=T(2)(-0.3)(INSR(STRUCT)([percorso_tetto,percorso_tetto_2,percorso_tetto_3,percorso_tetto_4])) | ||
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| giardino_tetto1=COLOR(green)(T([1,2,3])([11,26.6,3.3])(CUBOID([7,0.1,39.3]))) | ||
| giardino_tetto_2=T(1)(15)(giardino_tetto1) | ||
| giardino_tetto_3=COLOR(green)(T([1,2,3])([3.3,26.6,12.6])(CUBOID([39.3,0.1,7]))) | ||
| giardino_tetto_4=T(3)(14)(giardino_tetto_3) | ||
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| giardino_tetto=INSR(STRUCT)([giardino_tetto1,giardino_tetto_2,giardino_tetto_3, giardino_tetto_4]) | ||
|
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| ####################################################################################################################################################### | ||
| #Crea il supporto della costruzione | ||
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| supp=creaRampa(50,50) | ||
| ramp=creaBaseSupporto(50,50) | ||
| scala= COLOR(GRAY)(T([1,2,3])([-3,-10,-2.5])(MAP([S1,S3,S2])(STRUCT([supp,ramp])))) | ||
| supporto=COLOR(GRAY)(T([1,2,3])([7,-10,-2.5])(CUBOID([30.5,10,50]))) | ||
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| #################################################################################################################################################### | ||
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| china_pavillion=T([1,2,3])([150,10,75])(INSR(STRUCT)([ percorsi_tetto,percorso_tetto_2, scala,supporto, giardino_tetto, tetto_edificio3D,tetto_edificio3D_2,prato,pianale,edificio,edificio2,tetto,colonne_decimo_livello3D,colonne_nono_livello3D,colonne_ott_livello3D,colonne_sett_livello3D,colonne_ses_livello3D,colonne_quin_livello3D,colonne_quar_livello3D,colonne_ter_livello3D,colonne_sec_livello3D, colonne_primo_livello3D ,finestre_vertic_3D,colonne_vertic_rosse3D])) | ||
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| VIEW(china_pavillion) |
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| Original file line number | Diff line number | Diff line change |
|---|---|---|
| @@ -0,0 +1,178 @@ | ||
| from pyplasm import * | ||
| from larcc import * | ||
|
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| col=Color4f([(0.78),(0.04),(0.084)]) | ||
| green=Color4f([(0.133),(0.545),(0.133)]) | ||
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| ##################################################################################################################### | ||
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| def creaRampa (lung,q=30) : | ||
| grad2d = MKPOL([[[0,0],[0,0.2],[0.2,0.2]],[[1,2,3]],None]) | ||
| grad3d = MAP([S1,S3,S2])(PROD([grad2d,Q(q)])) | ||
| rampa=STRUCT([grad3d,T([1,3])([0.2,0.2])]*lung) | ||
| return rampa | ||
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| def creaBaseSupporto (lung,q=30): | ||
| supp2d = MKPOL([[[0,0],[0.2*lung,0],[0.2*lung,0.2*lung]],[[1,2,3]],None]) | ||
| supp3d = MAP([S1,S3,S2])(PROD([supp2d,Q(q)])) | ||
| return supp3d | ||
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| def larRing1(params): | ||
| r1,r2 =params | ||
| def larRing0(shape=[36,1]): | ||
| V,CV =larIntervals (shape)([PI,r2-r1]) | ||
| V=translatePoints(V,[0,r1]) | ||
| domain=V,CV | ||
| x=lambda V : [p[1] * COS(p[0]) for p in V] | ||
| y=lambda V : [p[1] * SIN(p[0]) for p in V] | ||
| return larMap([x,y])(domain) | ||
| return larRing0 | ||
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| def larDisk1(radius=1): | ||
| def larDisk0(shape=[36,1]): | ||
| domain=larIntervals(shape)([PI,radius]) | ||
| V,CV=domain | ||
| x=lambda V : [p[1]*COS(p[0]) for p in V] | ||
| y=lambda V : [p[1]*SIN(p[0]) for p in V] | ||
| return larMap([x,y]) (domain) | ||
| return larDisk0 | ||
|
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| ######################################################################################################################################################### | ||
| #Creo l'entrata | ||
|
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| ring=checkModel(larDisk1(15)([25,1])) | ||
| ring_2=checkModel(larDisk1(12)([25,1])) | ||
| ring_3=checkModel(larDisk1(5)([25,1])) | ||
| ring=STRUCT(MKPOLS(ring)) | ||
| ring_2=STRUCT(MKPOLS(ring_2)) | ||
| ring_3=STRUCT(MKPOLS(ring_3)) | ||
| ring_3D=COLOR(col)(T([1,2])([3,20])(R([1,3])(PI/2)(PROD([ring,Q(4)])))) | ||
| ring_3D_2=T([1,2])([-1.5,20])(R([1,3])(PI/2)(PROD([ring_2,Q(0.1)]))) | ||
| ring_3D_3=COLOR(BLACK)(T([1,2])([-2,20])(R([1,3])(PI/2)(PROD([ring_3,Q(0.1)])))) | ||
| colonna_1=COLOR(col)(T(3)(-15)(CUBOID([3,20,3]))) | ||
| colonna_2=COLOR(col)(T(3)(12)(CUBOID([3,20,3]))) | ||
| entrata=T([1,3])([10.2,95.3])(STRUCT([ring_3D,ring_3D_2,ring_3D_3, colonna_1,colonna_2])) | ||
|
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| #VIEW(entrata) | ||
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| ######################################################################################################################################################## | ||
| #creo dei giardini sul tetto della costruzione | ||
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| giardino_supporto=COLOR(green)(MKPOL([[[35,0,5,],[85,0,5],[85,0,75],[35,0,75]],[[1,2,3,4]],None])) | ||
| giardino_supporto2=COLOR(green)(MKPOL([[[55,0,55],[55,0,75],[5,0,75],[5,0,55]],[[1,2,3,4]],None])) | ||
| giardino_supporto3=COLOR(green)(MKPOL([[[5,0,125,],[5,0,145],[95,0,125],[95,0,155]],[[1,2,3,4]],None])) | ||
| giardino_supporto4=T(2)(0.1)(COLOR(green)(MKPOL([[[95,0,125,],[35,0,195],[35,0,125],[95,0,195]],[[1,2,3,4]],None]))) | ||
| giardino_supporto5=COLOR(green)(MKPOL([[[115,0,5,],[190,0,5],[145,0,65],[115,0,75]],[[1,2,3,4]],None])) | ||
| giardino_supporto6=COLOR(green)(MKPOL([[[120,0,125,],[185,0,145],[194,0,125],[120,0,155]],[[1,2,3,4]],None])) | ||
| giardino_1=T(2)(0.1)(STRUCT([giardino_supporto,giardino_supporto2, giardino_supporto3, giardino_supporto4, giardino_supporto5, giardino_supporto6])) | ||
|
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| ######################################################################################################################################################## | ||
|
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| #creao la strada che porta alla costruzione | ||
|
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| strada=T([1,2,3])([10,0.1,80])(CUBOID([170,0.1,30])) | ||
| strada_bordo_1=COLOR(BLACK)(T([1,2,3])([10,0.3,80])(CUBOID([170,0.1,5]))) | ||
| strada_bordo_2=T(3)(25)(strada_bordo_1) | ||
|
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| ######################################################################################################################################################### | ||
|
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| colonna_rossa3D=COLOR(col)(INSR(PROD)([Q(1.5),Q(10),Q(1.5)])) | ||
| colonne_orizz_rosse3D=STRUCT([colonna_rossa3D,T(1)(2.5)]*3+[T(1)(12),colonna_rossa3D]+[T(1)(2.5),colonna_rossa3D]*2) | ||
| colonne_vertic_rosse3D=T([1,3])([9,9])(STRUCT([colonne_orizz_rosse3D,T(3)(2.5)]*3+[T(3)(13),colonne_orizz_rosse3D]+[T(3)(2.5),colonne_orizz_rosse3D]*2)) | ||
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| finestra3D=T(3)(9)(COLOR(BLACK)(INSR(PROD)([Q(3.5),Q(10),Q(3.5)]))) | ||
| finestre_orizz_3D=T([1,3])([10.5,1.5])(STRUCT([finestra3D,T(1)(19.5)]*2)) | ||
| finestre_vertic_3D=STRUCT([finestre_orizz_3D,T(3)(20.5)]*2) | ||
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| colonna_primo_livello3D=COLOR(col)(T([1,2,3])([7.5,10,9])(INSR(PROD)([Q(29),Q(1.5),Q(1.5)]))) | ||
| colonne_primo_livello3D=STRUCT([colonna_primo_livello3D,T(3)(2.5)]*3+[T(3)(13),colonna_primo_livello3D]+[T(3)(2.5),colonna_primo_livello3D]*2) | ||
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| colonne_sec_livello3D=T(2)(1.5)(colonne_primo_livello3D) | ||
| colonne_sec_livello3D=COLOR(col)(MAP([S3,S2,S1])(colonne_sec_livello3D)) | ||
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| colonna_ter_livello3D=COLOR(col)(T([1,2,3])([6,13,6.5])(INSR(PROD)([Q(33),Q(1.5),Q(1.5)]))) | ||
| colonne_ter_livello3D=T(3)(2)(STRUCT([colonna_ter_livello3D,T(3)(2.5)]*3+[T(3)(3.5),colonna_ter_livello3D]+[T(3)(3.5),colonna_ter_livello3D]*4)) | ||
| colonne_quar_livello3D=T([2,3])([1.5,-1])(colonne_ter_livello3D) | ||
| colonne_quar_livello3D=COLOR(col)(MAP([S3,S2,S1])(colonne_quar_livello3D)) | ||
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| colonna_quin_livello3D=COLOR(col)(T([1,2,3])([4.5,16,4.5])(INSR(PROD)([Q(37),Q(1.5),Q(1.5)]))) | ||
| colonne_quin_livello3D=T(3)(3)(STRUCT([colonna_quin_livello3D,T(3)(2.5)]*5+[T(3)(5.5),colonna_quin_livello3D]+[T(3)(3.5),colonna_quin_livello3D]*3)) | ||
| colonne_ses_livello3D=T([2,3])([1.5,-1])(colonne_quin_livello3D) | ||
| colonne_ses_livello3D=COLOR(col)(T(1)(2)(MAP([S3,S2,S1])(colonne_ses_livello3D))) | ||
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| colonna_sett_livello3D=COLOR(col)(T([1,2,3])([4,19,3])(INSR(PROD)([Q(39),Q(1.5),Q(1.5)]))) | ||
| colonne_sett_livello3D=T(3)(3)(STRUCT([colonna_sett_livello3D,T(3)(2.5)]*4+[T(3)(5.5),colonna_sett_livello3D]+[T(3)(3.5),colonna_sett_livello3D]*5)) | ||
| colonne_ott_livello3D=T([2,3])([1.5,-1])(colonne_sett_livello3D) | ||
| colonne_ott_livello3D=COLOR(col)(T(1)(3)(MAP([S3,S2,S1])(colonne_ott_livello3D))) | ||
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| colonna_nono_livello3D=COLOR(col)(T([1,2,3])([1.5,22,2])(INSR(PROD)([Q(43),Q(1.5),Q(1.5)]))) | ||
| colonne_nono_livello3D=T(3)(2)(STRUCT([colonna_nono_livello3D,T(3)(2.5)]*5+[T(3)(5.5),colonna_nono_livello3D]+[T(3)(3.5),colonna_nono_livello3D]*5)) | ||
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| colonne_decimo_livello3D=T([2,3])([1.5,-1])(colonne_nono_livello3D) | ||
| colonne_decimo_livello3D=COLOR(col)(T(1)(3)(MAP([S3,S2,S1])(colonne_decimo_livello3D))) | ||
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| #creo gli oggetti sul tetto | ||
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| tetto=COLOR(col) (T([1,2,3])([1.5,25,1.5])(INSR(PROD)([Q(43),Q(1),Q(43)]))) | ||
| pianale= T([1,2,3])([1.5,25,1.5])(INSR(PROD)([Q(43),Q(1.3),Q(43)])) | ||
| prato= COLOR(GRAY)(T([1,2,3])([3,25,3])(INSR(PROD)([Q(40),Q(1.5),Q(40)]))) | ||
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| edificio_alto_senza_porte=PROD([Q(8),Q(4)]) | ||
| porta=PROD([Q(1),Q(2)]) | ||
| edificio_alto_con_porte_uno=T([1,2])([10.5,26.5])(COLOR(col)(DIFFERENCE([edificio_alto_senza_porte,T(1)(2)(porta),T(1)(5)(porta)]))) | ||
| edificio_alto_con_porte_due=T([1,2])([25.5,26.5])(COLOR(col)(DIFFERENCE([edificio_alto_senza_porte,T(1)(2)(porta),T(1)(5)(porta)]))) | ||
| tetto_edificio=T([1,2])([10,30.5])(COLOR(col)(PROD([Q(24),Q(1)]))) | ||
| ed=STRUCT([edificio_alto_con_porte_uno,edificio_alto_con_porte_due,tetto_edificio]) | ||
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| #creo i due edifici sul tetto con il rispettivo tetto | ||
| edificio=COLOR(col)(T(3)(12)(PROD([ed,Q(8)]))) | ||
| edificio2=COLOR(col)(T(3)(26)(PROD([ed,Q(8)]))) | ||
| tetto_edificio3D=T([1,3])([-1,45])(R([3,1])(PI/2)(COLOR(col)(T(3)(26)(PROD([tetto_edificio,Q(9)]))))) | ||
| tetto_edificio3D_2=T(1)(-15)(tetto_edificio3D) | ||
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| percorso_tetto=T([1,2,3])([11,32,13.5])(CUBOID([7,0.1,19])) | ||
| percorso_tetto_2=T(1)(15)(percorso_tetto) | ||
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| percorso_tetto_3=T([1,2,3])([11,32,12.6])(CUBOID([22,0.1,7])) | ||
| percorso_tetto_4=T(3)(14)(percorso_tetto_3) | ||
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| mura_tetto_edificio_1=COLOR(col)(T([1,2,3])([11,32,12.5])(CUBOID([0.3,2,21.1]))) | ||
| mura_tetto_edificio_2=COLOR(col)(T([1,2,3])([18,32,12.5])(CUBOID([0.3,2,21.1]))) | ||
| mura_tetto_edificio_3=COLOR(col)(T([1,2,3])([26,32,12.5])(CUBOID([0.3,2,21.1]))) | ||
| mura_tetto_edificio_4=COLOR(col)(T([1,2,3])([33,32,12.5])(CUBOID([0.3,2,21.1]))) | ||
| mura_tetto_edificio_5=COLOR(col)(T([1,2,3])([11,32.1,12.5])(CUBOID([22,2,0.3]))) | ||
| mura_tetto_edificio_6=T(3)(7)(mura_tetto_edificio_5) | ||
| mura_tetto_edificio_7=T(3)(7)(mura_tetto_edificio_6) | ||
| mura_tetto_edificio_8=T(3)(7)(mura_tetto_edificio_7) | ||
| mura_tetto_edificio=T(2)(-0.5)(INSR(STRUCT)([ percorso_tetto_4, percorso_tetto_3, percorso_tetto_2, percorso_tetto, mura_tetto_edificio_8, mura_tetto_edificio_7, mura_tetto_edificio_6, mura_tetto_edificio_1,mura_tetto_edificio_2, mura_tetto_edificio_3,mura_tetto_edificio_4, mura_tetto_edificio_5])) | ||
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| giardino_tetto1=COLOR(green)(T([1,2,3])([11,26.6,3.3])(CUBOID([7,0.1,39.3]))) | ||
| giardino_tetto_2=T(1)(15)(giardino_tetto1) | ||
| giardino_tetto_3=COLOR(green)(T([1,2,3])([3.3,26.6,12.6])(CUBOID([39.3,0.1,7]))) | ||
| giardino_tetto_4=T(3)(14)(giardino_tetto_3) | ||
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| giardino_tetto=INSR(STRUCT)([giardino_tetto1,giardino_tetto_2,giardino_tetto_3, giardino_tetto_4]) | ||
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| ####################################################################################################################################################### | ||
| #Crea il supporto della costruzione | ||
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| supp=creaRampa(50,50) | ||
| ramp=creaBaseSupporto(50,50) | ||
| scala= COLOR(GRAY)(T([1,2,3])([-3,-10,-2.5])(MAP([S1,S3,S2])(STRUCT([supp,ramp])))) | ||
| supporto=COLOR(GRAY)(T([1,2,3])([7,-10,-2.5])(CUBOID([30.5,10,50]))) | ||
| entrata=T([1,2,3])([-60,-10,-73])(entrata) | ||
| base_supp=COLOR(GRAY)(T([1,2,3])([-60,-10,-2.5])(CUBOID([70,0.1,50]))) | ||
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| #################################################################################################################################################### | ||
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| china_pavillion=T([1,2,3])([150,10,75])(INSR(STRUCT)([base_supp,entrata, scala,supporto, giardino_tetto, mura_tetto_edificio, tetto_edificio3D,tetto_edificio3D_2,prato,pianale,edificio,edificio2,tetto,colonne_decimo_livello3D,colonne_nono_livello3D,colonne_ott_livello3D,colonne_sett_livello3D,colonne_ses_livello3D,colonne_quin_livello3D,colonne_quar_livello3D,colonne_ter_livello3D,colonne_sec_livello3D, colonne_primo_livello3D ,finestre_vertic_3D,colonne_vertic_rosse3D])) | ||
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| VIEW(china_pavillion) |