190205

2019-02-05 21:29:53 -02:00 · 2019-02-05 21:29:53 -02:00 · 1f1cc43ec8
commit 1f1cc43ec8
--- a/2019/sketch_190204b/sketch_190204b.pyde
+++ b/2019/sketch_190204b/sketch_190204b.pyde
@ -19,6 +19,7 @@ Node = namedtuple(
 save_frames = False
 def setup():
    smooth(16)
    size(600, 600)
    rectMode(CENTER)
    noFill()
@ -60,7 +61,7 @@ def new_node():
        rnd.choice(X_LIST),        # x
        rnd.choice(Y_LIST),        # y
        rnd.choice([10, 20, 30]),  # t_size (tail/circle size)
-        rnd.choice([2, 4, 6]),     # s_weight (espessura da linha)
+        rnd.choice([1, 2, 3]),     # s_weight (espessura da linha)
        rnd.choice([True, False]),  # is_special? (se é seta ou 'linha')
        []  # points_to... (lista com ref. a outro elem.))
    )
@ -80,6 +81,7 @@ def draw():
    if fc < 0:
        desenho = desenho_atual
    elif 0 <= fc < 149:
        if frameCount % 10 == 0:
            make_inter_nodes(map(fc, 0, 150, 0, 1))
        desenho = desenho_inter
    elif fc == 149:
--- a/2019/sketch_190205a/arcs.py
+++ b/2019/sketch_190205a/arcs.py
@ -0,0 +1,106 @@
 # -*- coding: utf-8 -*-
 ROTATION = {0: 0,
            BOTTOM: 0,
            DOWN: 0,
            1: HALF_PI,
            LEFT: HALF_PI,
            2: PI,
            TOP: PI,
            UP: PI,
            3: PI + HALF_PI,
            RIGHT: PI + HALF_PI,
            BOTTOM + RIGHT: 0,
            DOWN + RIGHT: 0,
            DOWN + LEFT: HALF_PI,
            BOTTOM + LEFT: HALF_PI,
            TOP + LEFT: PI,
            UP + LEFT: PI,
            TOP + RIGHT: PI + HALF_PI,
            UP + RIGHT: PI + HALF_PI,
            }
 def quarter_circle(x, y, radius, quadrant):
    circle_arc(x, y, radius, ROTATION[quadrant], HALF_PI)
 def half_circle(x, y, radius, quadrant):
    circle_arc(x, y, radius, ROTATION[quadrant], PI)
 def circle_arc(x, y, radius, start_ang, sweep_ang):
    arc(x, y, radius * 2, radius * 2, start_ang, start_ang + sweep_ang)
 def poly_arc(x, y, radius, start_ang, sweep_ang, num_points=2):
    angle = sweep_ang / int(num_points)
    a = start_ang
    with beginShape(): 
        while a <= start_ang + sweep_ang:
            sx = x + cos(a) * radius
            sy = y + sin(a) * radius
            vertex(sx, sy)
            a += angle
 def arc_poly(x, y, d, _, start_ang, end_ang, num_points=5):
    sweep_ang = end_ang - start_ang
    angle = sweep_ang / int(num_points)
    a = start_ang
    with beginShape(): 
        while a <= end_ang:
            sx = x + cos(a) * d / 2
            sy = y + sin(a) * d / 2
            vertex(sx, sy)
            a += angle
 def bar(x1, y1, x2, y2, thickness=None, shorter=0, ends=(1, 1)):
    """
    O código para fazer as barras, dois pares (x, y),
    um parâmetro de encurtamento: shorter
    """
    L = dist(x1, y1, x2, y2)
    if not thickness:
        thickness = 10
    with pushMatrix():
        translate(x1, y1)
        angle = atan2(x1 - x2, y2 - y1)
        rotate(angle)
        offset = shorter / 2
        line(thickness / 2, offset, thickness / 2, L - offset)
        line(-thickness / 2, offset, -thickness / 2, L - offset)
        if ends[0]:
            half_circle(0, offset, thickness / 2, UP)
        if ends[1]:
            half_circle(0, L - offset, thickness / 2, DOWN)
 def var_bar(p1x, p1y, p2x, p2y, r1, r2=None):
    if r2 is None:
        r2 = r1
    d = dist(p1x, p1y, p2x, p2y)
    if d > 0:
        with pushMatrix():
            translate(p1x, p1y)
            angle = atan2(p1x - p2x, p2y - p1y)
            rotate(angle + HALF_PI)
            ri = r1 - r2
            beta = asin(ri / d) + HALF_PI
            x1 = cos(beta) * r1
            y1 = sin(beta) * r1
            x2 = cos(beta) * r2
            y2 = sin(beta) * r2
            with pushStyle():
                noStroke()
                beginShape()
                vertex(-x1, -y1)
                vertex(d - x2, -y2)
                vertex(d, 0)
                vertex(d - x2, +y2)
                vertex(-x1, +y1)
                vertex(0, 0)
                endShape(CLOSE)
            line(-x1, -y1, d - x2, -y2)
            line(-x1, +y1, d - x2, +y2)
            arc(0, 0, r1 * 2, r1 * 2,
                -beta - PI, beta - PI)
            arc(d, 0, r2 * 2, r2 * 2,
                beta - PI, PI - beta)
    else:
            ellipse(x1, y1, r1*2, r1*2)
            ellipse(x2, y2, r2*2, r2*2)
--- a/2019/sketch_190205a/sketch_190205a.pyde
+++ b/2019/sketch_190205a/sketch_190205a.pyde
@ -0,0 +1,153 @@
 # Alexandre B A Villares - https://abav.lugaralgum.com/sketch-a-day
 SKETCH_NAME, OUTPUT = "sketch_190204a", ".gif" 
 """
 A retake of sketch 58 180228 + work from 190201 :)
 """
 from arcs import var_bar
 from collections import namedtuple
 import random as rnd
 import copy as cp
 SPACING, MARGIN = 60, 120
 X_LIST, Y_LIST = [], []  # listas de posições para elementos
 desenho_atual, outro_desenho, desenho_inter, desenho_inicial = [], [], [], []
 NUM_NODES = 32  # número de elementos do desenho / number of nodes
 Node = namedtuple(
    'Node', 'x y t_size s_weight is_special points_to')
 save_frames = False
 def setup():
    smooth(16)
    size(600, 600)
    rectMode(CENTER)
    noFill()
    X_LIST[:] = [x for x in range(MARGIN, 1 + width - MARGIN, SPACING)]
    Y_LIST[:] = [y for y in range(MARGIN, 1 + height - MARGIN, SPACING)]
    novo_desenho(desenho_atual)
    desenho_inicial[:] = cp.deepcopy(desenho_atual)
    println("'s' to save, and 'n' for a new drawing")
 def keyPressed():
    global save_frames
    if key == 's':
        saveFrame("####.png")
        # save_frames = not save_frames
        # print "Saving "+repr(save_frames)
    if key == 'r':
        make_nodes_point(desenho_atual)
    if key == 'n':
        novo_desenho(desenho_atual)
    if key == ' ':
        background(200)
 def novo_desenho(desenho):
    """
    esvazia a lista elementos (setas e linhas) do desenho anterior
    clears the list of nodes and creates a a new drawing appending desenho_atual,
    a list of nodes/drawing elements: specials, connecting lines and lonely nodes
    """
    desenho[:] = []
    for _ in range(NUM_NODES):
        desenho.append(new_node())
    make_nodes_point(desenho)
    outro_desenho[:] = cp.deepcopy(desenho)
    make_nodes_point(outro_desenho)
 def new_node():
    return Node(                   # elemento/"nó" uma namedtuple com:
        rnd.choice(X_LIST),        # x
        rnd.choice(Y_LIST),        # y
        rnd.choice([10, 20, 30]),  # t_size (tail/circle size)
        rnd.choice([1, 2, 3]),     # s_weight (espessura da linha)
        rnd.choice([True, False]),  # is_special? (se é seta ou 'linha')
        []  # points_to... (lista com ref. a outro elem.))
    )
 def make_nodes_point(desenho):
    for node in desenho:  # para cada elemento do desenho
        node.points_to[:] = []
        random_node = rnd.choice(desenho)  # sorteia o,utro elemento
        if ((node.x, node.y) != (random_node.x, random_node.y)
            and dist(node.x, node.y, random_node.x, random_node.y) <= SPACING * 3):
            # 'aponta' para este elemento, acrescenta na sub_lista
            node.points_to.append(random_node)
 def draw():
    global desenho_atual, outro_desenho
    background(200)
    fc = frameCount % 300 - 150
    if fc < 0:
        desenho = desenho_atual
    elif 0 <= fc < 149:
        if frameCount % 10 == 0:
            make_inter_nodes(map(fc, 0, 150, 0, 1))
        desenho = desenho_inter
    elif fc == 149:
        desenho_atual, outro_desenho = outro_desenho, desenho_atual
        desenho = desenho_atual
        if not mousePressed:
            make_nodes_point(outro_desenho)
        else:
            outro_desenho[:] = cp.deepcopy(desenho_inicial)
    # draws white 'lines', non-specials, first.
    for node in (n for n in desenho if not n.is_special):
        for other in node.points_to:  # se estiver apontando para alguém
            strokeWeight(node.s_weight)
            stroke(255)
            line(node.x, node.y, other.x, other.y)
            # desenha o círculo (repare que só em nós que 'apontam')
            ellipse(node.x, node.y, node.t_size, node.t_size)
    # then draws 'lonely nodes' in red (nodes that do not point anywhere)
    for node in (n for n in desenho if not n.points_to):
        strokeWeight(node.s_weight)
        stroke(100)  # grey stroke for lonely nodes
        if node.is_special:
            ellipse(node.x, node.y, node.t_size*2, node.t_size*2)
        else:
            ellipse(node.x, node.y, node.t_size, node.t_size)
    # then draws black specials
    for node in (n for n in desenho if n.is_special):
        for other in node.points_to:  # se estiver apontando para alguém
            strokeWeight(node.s_weight)
            stroke(0)
            var_bar(node.x, node.y, other.x, other.y,
                    node.t_size, node.s_weight * 5)
    if save_frames and fc % 2:
        saveFrame("####.tga")
 def make_inter_nodes(amt):
    desenho_inter[:] = []
    for n1, n2 in zip(desenho_atual, outro_desenho):
        if n1.points_to:
            p1x, p1y = n1.points_to[0].x, n1.points_to[0].y
        else:
            p1x, p1y = n1.x, n1.y
        if n2.points_to:
            p2x, p2y = n2.points_to[0].x, n2.points_to[0].y
        else:
            p2x, p2y = n2.x, n2.y
        desenho_inter.append(Node(                   # elemento/"nó" uma namedtuple com:
            n1.x,        # x
            n1.y,        # y
            n1.t_size,  # t_size (tail/circle size)
            n1.s_weight,     # s_weight (espessura da linha)
            n1.is_special,  # is_special? (se é barra ou 'linha')
            # cp.deepcopy(n1.points_to)
            [PVector(lerp(p1x, p2x, amt), lerp(p1y, p2y, amt))]
        ))
 # print text to add to the project's README.md
 def settings():
    println(
        """
 ![{0}](2019/{0}/{0}{1})
 [{0}](https://github.com/villares/sketch-a-day/tree/master/2019/{0}) [[Py.Processing](https://villares.github.io/como-instalar-o-processing-modo-python/index-EN)]
 """.format(SKETCH_NAME, OUTPUT)
    )