def test_h_and_v_bars(): fig, ax = plt.subplots() ax.bar(left=D['multi_left'], height=D['multi_height'], width=10, color='green', alpha=.5) # changing height 10 -> 14 because ValueError if bargap not in [0, 1] ax.barh(bottom=D['multi_bottom'], width=D['multi_width'], height=14, color='red', alpha=.5) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig['data']): d1, d2 = strip_dict_params(data_dict, H_AND_V_BARS['data'][data_no], ignore=['uid']) equivalent, msg = compare_dict(d1, d2) assert equivalent, msg equivalent, msg = compare_dict(renderer.plotly_fig['layout'], H_AND_V_BARS['layout']) assert equivalent, msg
def test_h_and_v_bars(): fig, ax = plt.subplots() ax.bar( left=D["multi_left"], height=D["multi_height"], width=10, color="green", alpha=0.5, ) # changing height 10 -> 14 because ValueError if bargap not in [0, 1] ax.barh( bottom=D["multi_bottom"], width=D["multi_width"], height=14, color="red", alpha=0.5, ) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig["data"]): d1, d2 = strip_dict_params(data_dict, H_AND_V_BARS["data"][data_no], ignore=["uid"]) equivalent, msg = compare_dict(d1, d2) assert equivalent, msg equivalent, msg = compare_dict(renderer.plotly_fig["layout"], H_AND_V_BARS["layout"]) assert equivalent, msg
def test_complicated_line(): fig, ax = plt.subplots() ax.plot(D["x1"], D["y1"], "ro", markersize=10, alpha=0.5, label="one") ax.plot(D["x1"], D["y1"], "-b", linewidth=2, alpha=0.7, label="two") ax.plot( D["x2"], D["y2"], "b+", markeredgewidth=2, markersize=10, alpha=0.6, label="three", ) ax.plot(D["x2"], D["y2"], "--r", linewidth=2, alpha=0.8, label="four") renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig["data"]): d1, d2 = strip_dict_params(data_dict, COMPLICATED_LINE["data"][data_no], ignore=["uid"]) equivalent, msg = compare_dict(d1, d2) assert equivalent, msg equivalent, msg = compare_dict(renderer.plotly_fig["layout"], COMPLICATED_LINE["layout"]) assert equivalent, msg
def test_simple_scatter(): fig, ax = plt.subplots() ax.scatter(D["x1"], D["y1"]) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig["data"]): equivalent, msg = compare_dict(data_dict, SIMPLE_SCATTER["data"][data_no]) assert equivalent, msg equivalent, msg = compare_dict(renderer.plotly_fig["layout"], SIMPLE_SCATTER["layout"]) assert equivalent, msg
def test_simple_line(): fig, ax = plt.subplots() ax.plot(D['x1'], D['y1'], label='simple') renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig['data']): equivalent, msg = compare_dict(data_dict, SIMPLE_LINE['data'][data_no]) assert equivalent, msg equivalent, msg = compare_dict(renderer.plotly_fig['layout'], SIMPLE_LINE['layout']) assert equivalent, msg
def test_double_scatter(): fig, ax = plt.subplots() ax.scatter(D["x1"], D["y1"], color="red", s=121, marker="^", alpha=0.5) ax.scatter(D["x2"], D["y2"], color="purple", s=64, marker="s", alpha=0.5) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig["data"]): equivalent, msg = compare_dict(data_dict, DOUBLE_SCATTER["data"][data_no]) assert equivalent, msg equivalent, msg = compare_dict(renderer.plotly_fig["layout"], DOUBLE_SCATTER["layout"]) assert equivalent, msg
def test_horizontal_bar(): fig, ax = plt.subplots() ax.barh(bottom=D['bottom'], width=D['width']) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig['data']): equivalent, msg = compare_dict(data_dict, HORIZONTAL_BAR['data'][data_no]) assert equivalent, msg equivalent, msg = compare_dict(renderer.plotly_fig['layout'], HORIZONTAL_BAR['layout']) assert equivalent, msg
def test_vertical_bar(): fig, ax = plt.subplots() ax.bar(left=D['left'], height=D['height']) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig['data']): equivalent, msg = compare_dict(data_dict, VERTICAL_BAR['data'][data_no]) assert equivalent, msg equivalent, msg = compare_dict(renderer.plotly_fig['layout'], VERTICAL_BAR['layout']) assert equivalent, msg
def test_simple_scatter(): fig, ax = plt.subplots() ax.scatter(D['x1'], D['y1']) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig['data']): equivalent, msg = compare_dict(data_dict, SIMPLE_SCATTER['data'][data_no]) assert equivalent, msg equivalent, msg = compare_dict(renderer.plotly_fig['layout'], SIMPLE_SCATTER['layout']) assert equivalent, msg
def test_double_scatter(): fig, ax = plt.subplots() ax.scatter(D['x1'], D['y1'], color='red', s=121, marker='^', alpha=0.5) ax.scatter(D['x2'], D['y2'], color='purple', s=64, marker='s', alpha=0.5) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig['data']): equivalent, msg = compare_dict(data_dict, DOUBLE_SCATTER['data'][data_no]) assert equivalent, msg equivalent, msg = compare_dict(renderer.plotly_fig['layout'], DOUBLE_SCATTER['layout']) assert equivalent, msg
def test_even_linear_scale(): fig, ax = plt.subplots() x = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10] y = [10, 3, 100, 6, 45, 4, 80, 45, 3, 59] ax.plot(x, y) _ = ax.set_xticks(list(range(0, 20, 3))) _ = ax.set_yticks(list(range(0, 200, 13))) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig["data"]): equivalent, msg = compare_dict(data_dict, EVEN_LINEAR_SCALE["data"][data_no]) assert equivalent, msg equivalent, msg = compare_dict(renderer.plotly_fig["layout"], EVEN_LINEAR_SCALE["layout"]) assert equivalent, msg
def test_simple_line(): fig, ax = plt.subplots() ax.plot(D["x1"], D["y1"], label="simple") renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig["data"]): d1, d2 = strip_dict_params( data_dict, SIMPLE_LINE["data"][data_no], ignore=["uid"] ) equivalent, msg = compare_dict(d1, d2) assert equivalent, msg equivalent, msg = compare_dict(renderer.plotly_fig["layout"], SIMPLE_LINE["layout"]) assert equivalent, msg
def test_h_and_v_bars(): fig, ax = plt.subplots() ax.bar(left=D['multi_left'], height=D['multi_height'], width=10, color='green', alpha=.5) ax.barh(bottom=D['multi_bottom'], width=D['multi_width'], height=10, color='red', alpha=.5) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig['data']): equivalent, msg = compare_dict(data_dict, H_AND_V_BARS['data'][data_no]) assert equivalent, msg equivalent, msg = compare_dict(renderer.plotly_fig['layout'], H_AND_V_BARS['layout']) assert equivalent, msg
def test_even_linear_scale(): fig, ax = plt.subplots() x = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10] y = [10, 3, 100, 6, 45, 4, 80, 45, 3, 59] ax.plot(x, y) _ = ax.set_xticks(list(range(0, 20, 3))) _ = ax.set_yticks(list(range(0, 200, 13))) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig['data']): equivalent, msg = compare_dict(data_dict, EVEN_LINEAR_SCALE['data'][data_no]) assert equivalent, msg equivalent, msg = compare_dict(renderer.plotly_fig['layout'], EVEN_LINEAR_SCALE['layout']) assert equivalent, msg
def test_complicated_line(): fig, ax = plt.subplots() ax.plot(D['x1'], D['y1'], 'ro', markersize=10, alpha=.5, label='one') ax.plot(D['x1'], D['y1'], '-b', linewidth=2, alpha=.7, label='two') ax.plot(D['x2'], D['y2'], 'b+', markeredgewidth=2, markersize=10, alpha=.6, label='three') ax.plot(D['x2'], D['y2'], '--r', linewidth=2, alpha=.8, label='four') renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig['data']): equivalent, msg = compare_dict(data_dict, COMPLICATED_LINE['data'][data_no]) assert equivalent, msg equivalent, msg = compare_dict(renderer.plotly_fig['layout'], COMPLICATED_LINE['layout']) assert equivalent, msg
def test_horizontal_bar(): fig, ax = plt.subplots() ax.barh(bottom=D["bottom"], width=D["width"]) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig["data"]): d1, d2 = strip_dict_params(data_dict, HORIZONTAL_BAR["data"][data_no], ignore=["uid"]) equivalent, msg = compare_dict(d1, d2) assert equivalent, msg equivalent, msg = compare_dict(renderer.plotly_fig["layout"], HORIZONTAL_BAR["layout"]) assert equivalent, msg
def test_vertical_bar(): fig, ax = plt.subplots() ax.bar(left=D["left"], height=D["height"]) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig["data"]): d1, d2 = strip_dict_params(data_dict, VERTICAL_BAR["data"][data_no], ignore=["uid"]) equivalent, msg = compare_dict(d1, d2) assert equivalent, msg equivalent, msg = compare_dict(renderer.plotly_fig["layout"], VERTICAL_BAR["layout"]) assert equivalent, msg
def test_even_linear_scale(): fig, ax = plt.subplots() x = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10] y = [10, 3, 100, 6, 45, 4, 80, 45, 3, 59] ax.plot(x, y) _ = ax.set_xticks(list(range(0, 20, 3)), True) _ = ax.set_yticks(list(range(0, 200, 13)), True) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig['data']): # equivalent, msg = compare_dict(data_dict.to_plotly_json(), # EVEN_LINEAR_SCALE['data'][data_no].to_plotly_json()) # assert equivalent, msg d1, d2 = strip_dict_params(data_dict, EVEN_LINEAR_SCALE['data'][data_no], ignore=['uid']) equivalent, msg = compare_dict(d1, d2) assert equivalent, msg equivalent, msg = compare_dict(renderer.plotly_fig['layout'], EVEN_LINEAR_SCALE['layout']) assert equivalent, msg
def test_annotations(): fig, ax = plt.subplots() ax.plot([1, 2, 3], 'b-') ax.plot([3, 2, 1], 'b-') ax.text(0.001, 0.999, 'top-left', transform=ax.transAxes, va='top', ha='left') ax.text(0.001, 0.001, 'bottom-left', transform=ax.transAxes, va='baseline', ha='left') ax.text(0.999, 0.999, 'top-right', transform=ax.transAxes, va='top', ha='right') ax.text(0.999, 0.001, 'bottom-right', transform=ax.transAxes, va='baseline', ha='right') renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig['data']): equivalent, msg = compare_dict(data_dict, ANNOTATIONS['data'][data_no]) assert equivalent, msg for no, note in enumerate(renderer.plotly_fig['layout']['annotations']): equivalent, msg = compare_dict(note, ANNOTATIONS['layout']['annotations'][no]) assert equivalent, msg
def test_annotations(): fig, ax = plt.subplots() ax.plot([1, 2, 3], 'b-') ax.plot([3, 2, 1], 'b-') ax.text(0.001, 0.999, 'top-left', transform=ax.transAxes, va='top', ha='left') ax.text(0.001, 0.001, 'bottom-left', transform=ax.transAxes, va='baseline', ha='left') ax.text(0.999, 0.999, 'top-right', transform=ax.transAxes, va='top', ha='right') ax.text(0.999, 0.001, 'bottom-right', transform=ax.transAxes, va='baseline', ha='right') renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig['data']): d1, d2 = strip_dict_params(data_dict, ANNOTATIONS['data'][data_no], ignore=['uid']) equivalent, msg = compare_dict(d1, d2) assert equivalent, msg for no, note in enumerate(renderer.plotly_fig['layout']['annotations']): equivalent, msg = compare_dict(note, ANNOTATIONS['layout']['annotations'][no]) assert equivalent, msg
def test_annotations(): fig, ax = plt.subplots() ax.plot([1, 2, 3], "b-") ax.plot([3, 2, 1], "b-") ax.text(0.001, 0.999, "top-left", transform=ax.transAxes, va="top", ha="left") ax.text(0.001, 0.001, "bottom-left", transform=ax.transAxes, va="baseline", ha="left") ax.text(0.999, 0.999, "top-right", transform=ax.transAxes, va="top", ha="right") ax.text(0.999, 0.001, "bottom-right", transform=ax.transAxes, va="baseline", ha="right") renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig["data"]): d1, d2 = strip_dict_params(data_dict, ANNOTATIONS["data"][data_no], ignore=["uid"]) equivalent, msg = compare_dict(d1, d2) assert equivalent, msg for no, note in enumerate(renderer.plotly_fig["layout"]["annotations"]): equivalent, msg = compare_dict( note, ANNOTATIONS["layout"]["annotations"][no]) assert equivalent, msg
def test_blank_subplots(): fig = plt.figure() gs = GridSpec(4, 6) ax1 = fig.add_subplot(gs[0, 1]) ax1.plot(D['x1'], D['y1']) fig.add_subplot(gs[1, 1]) fig.add_subplot(gs[2:, 1]) fig.add_subplot(gs[0, 2:]) fig.add_subplot(gs[1:3, 2:4]) fig.add_subplot(gs[3, 2:5]) fig.add_subplot(gs[1:3, 4:]) fig.add_subplot(gs[3, 5]) gs.update(hspace=.6, wspace=.6) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig['data']): d1, d2 = strip_dict_params(data_dict, BLANK_SUBPLOTS['data'][data_no], ignore=['uid']) equivalent, msg = compare_dict(d1, d2) equivalent, msg = compare_dict(renderer.plotly_fig['layout'], BLANK_SUBPLOTS['layout']) assert equivalent, msg
def test_simple_scatter(): fig, ax = plt.subplots() ax.scatter(D['x1'], D['y1']) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig['data']): d1, d2 = strip_dict_params(data_dict, SIMPLE_SCATTER['data'][data_no], ignore=['uid']) print(d1) print('\n') print(d2) assert d1 == d2 equivalent, msg = compare_dict(renderer.plotly_fig['layout'], SIMPLE_SCATTER['layout']) assert equivalent, msg
def test_blank_subplots(): fig = plt.figure() gs = GridSpec(4, 6) ax1 = fig.add_subplot(gs[0, 1]) ax1.plot(D["x1"], D["y1"]) fig.add_subplot(gs[1, 1]) fig.add_subplot(gs[2:, 1]) fig.add_subplot(gs[0, 2:]) fig.add_subplot(gs[1:3, 2:4]) fig.add_subplot(gs[3, 2:5]) fig.add_subplot(gs[1:3, 4:]) fig.add_subplot(gs[3, 5]) gs.update(hspace=0.6, wspace=0.6) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig["data"]): d1, d2 = strip_dict_params(data_dict, BLANK_SUBPLOTS["data"][data_no], ignore=["uid"]) equivalent, msg = compare_dict(d1, d2) equivalent, msg = compare_dict(renderer.plotly_fig["layout"], BLANK_SUBPLOTS["layout"]) assert equivalent, msg
def test_double_scatter(): fig, ax = plt.subplots() ax.scatter(D['x1'], D['y1'], color='red', s=121, marker='^', alpha=0.5) ax.scatter(D['x2'], D['y2'], color='purple', s=64, marker='s', alpha=0.5) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig['data']): d1, d2 = strip_dict_params(data_dict, DOUBLE_SCATTER['data'][data_no], ignore=['uid']) print(d1) print('\n') print(d2) assert d1 == d2 equivalent, msg = compare_dict(renderer.plotly_fig['layout'], DOUBLE_SCATTER['layout']) assert equivalent, msg
def test_simple_scatter(): fig, ax = plt.subplots() ax.scatter(D["x1"], D["y1"]) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig["data"]): d1, d2 = strip_dict_params(data_dict, SIMPLE_SCATTER["data"][data_no], ignore=["uid"]) print(d1) print("\n") print(d2) assert d1 == d2 equivalent, msg = compare_dict(renderer.plotly_fig["layout"], SIMPLE_SCATTER["layout"]) assert equivalent, msg
def test_blank_subplots(): fig = plt.figure() gs = GridSpec(4, 6) ax1 = fig.add_subplot(gs[0, 1]) ax1.plot(D['x1'], D['y1']) fig.add_subplot(gs[1, 1]) fig.add_subplot(gs[2:, 1]) fig.add_subplot(gs[0, 2:]) fig.add_subplot(gs[1:3, 2:4]) fig.add_subplot(gs[3, 2:5]) fig.add_subplot(gs[1:3, 4:]) fig.add_subplot(gs[3, 5]) gs.update(hspace=.6, wspace=.6) renderer = run_fig(fig) equivalent, msg = compare_dict(renderer.plotly_fig['layout'], BLANK_SUBPLOTS['layout']) assert equivalent, msg
def test_double_scatter(): fig, ax = plt.subplots() ax.scatter(D["x1"], D["y1"], color="red", s=121, marker="^", alpha=0.5) ax.scatter(D["x2"], D["y2"], color="purple", s=64, marker="s", alpha=0.5) renderer = run_fig(fig) for data_no, data_dict in enumerate(renderer.plotly_fig["data"]): d1, d2 = strip_dict_params(data_dict, DOUBLE_SCATTER["data"][data_no], ignore=["uid"]) print(d1) print("\n") print(d2) assert d1 == d2 equivalent, msg = compare_dict(renderer.plotly_fig["layout"], DOUBLE_SCATTER["layout"]) assert equivalent, msg
def test_strip_style(): fig = Figure( data=Data([ Scatter( x=[52698, 43117], y=[53, 31], mode='markers', name='North America', text=['United States', 'Canada'], marker=Marker( color='rgb(164, 194, 244)', size=12, line=Line( color='white', width=0.5 ) ) ), Scatter( x=[39317, 37236, 35650, 30066, 29570, 27159, 23557, 21046, 18007], y=[33, 20, 13, 19, 27, 19, 49, 44, 38], mode='markers', name='Europe', text=['Germany', 'Britain', 'France', 'Spain', 'Italy', 'Czech Rep.', 'Greece', 'Poland'], marker=Marker( color='rgb(255, 217, 102)', size=12, line=Line( color='white', width=0.5 ) ) ), Scatter( x=[42952, 37037, 33106, 17478, 9813, 5253, 4692, 3899], y=[23, 42, 54, 89, 14, 99, 93, 70], mode='markers', name='Asia/Pacific', text=['Australia', 'Japan', 'South Korea', 'Malaysia', 'China', 'Indonesia', 'Philippines', 'India'], marker=Marker( color='rgb(234, 153, 153)', size=12, line=Line( color='white', width=0.5 ) ) ), Scatter( x=[19097, 18601, 15595, 13546, 12026, 7434, 5419], y=[43, 47, 56, 80, 86, 93, 80], mode='markers', name='Latin America', text=['Chile', 'Argentina', 'Mexico', 'Venezuela', 'Venezuela', 'El Salvador', 'Bolivia'], marker=Marker( color='rgb(142, 124, 195)', size=12, line=Line( color='white', width=0.5 ) ) ) ]), layout=Layout( title='Quarter 1 Growth', autosize=False, width=500, height=500, xaxis=XAxis( title='GDP per Capita', showgrid=False, zeroline=False ), yaxis=YAxis( title='Percent', showline=False ), margin=Margin( l=65, r=50, b=65, t=90 ) ) ) print(fig) print('\n\n') fig.strip_style() print(fig) print('\n\n') comp_fig = Figure( data=Data([ Scatter( x=[52698, 43117], y=[53, 31], mode='markers', name='North America', text=['United States', 'Canada'], marker=Marker( line=Line() ) ), Scatter( x=[39317, 37236, 35650, 30066, 29570, 27159, 23557, 21046, 18007], y=[33, 20, 13, 19, 27, 19, 49, 44, 38], mode='markers', name='Europe', text=['Germany', 'Britain', 'France', 'Spain', 'Italy', 'Czech Rep.', 'Greece', 'Poland'], marker=Marker( line=Line() ) ), Scatter( x=[42952, 37037, 33106, 17478, 9813, 5253, 4692, 3899], y=[23, 42, 54, 89, 14, 99, 93, 70], mode='markers', name='Asia/Pacific', text=['Australia', 'Japan', 'South Korea', 'Malaysia', 'China', 'Indonesia', 'Philippines', 'India'], marker=Marker( line=Line() ) ), Scatter( x=[19097, 18601, 15595, 13546, 12026, 7434, 5419], y=[43, 47, 56, 80, 86, 93, 80], mode='markers', name='Latin America', text=['Chile', 'Argentina', 'Mexico', 'Venezuela', 'Venezuela', 'El Salvador', 'Bolivia'], marker=Marker( line=Line() ) ) ]), layout=Layout( title='Quarter 1 Growth', width=500, height=500, xaxis=XAxis( title='GDP per Capita' ), yaxis=YAxis( title='Percent' ), margin=Margin( l=65, r=50, b=65, t=90 ) ) ) equivalent, msg = compare_dict(fig, comp_fig) print(msg) assert equivalent
def test_strip_style(): fig = Figure(data=Data([ Scatter(x=[52698, 43117], y=[53, 31], mode='markers', name='North America', text=['United States', 'Canada'], marker=Marker(color='rgb(164, 194, 244)', size=12, line=Line(color='white', width=0.5))), Scatter( x=[39317, 37236, 35650, 30066, 29570, 27159, 23557, 21046, 18007], y=[33, 20, 13, 19, 27, 19, 49, 44, 38], mode='markers', name='Europe', text=[ 'Germany', 'Britain', 'France', 'Spain', 'Italy', 'Czech Rep.', 'Greece', 'Poland' ], marker=Marker(color='rgb(255, 217, 102)', size=12, line=Line(color='white', width=0.5))), Scatter(x=[42952, 37037, 33106, 17478, 9813, 5253, 4692, 3899], y=[23, 42, 54, 89, 14, 99, 93, 70], mode='markers', name='Asia/Pacific', text=[ 'Australia', 'Japan', 'South Korea', 'Malaysia', 'China', 'Indonesia', 'Philippines', 'India' ], marker=Marker(color='rgb(234, 153, 153)', size=12, line=Line(color='white', width=0.5))), Scatter(x=[19097, 18601, 15595, 13546, 12026, 7434, 5419], y=[43, 47, 56, 80, 86, 93, 80], mode='markers', name='Latin America', text=[ 'Chile', 'Argentina', 'Mexico', 'Venezuela', 'Venezuela', 'El Salvador', 'Bolivia' ], marker=Marker(color='rgb(142, 124, 195)', size=12, line=Line(color='white', width=0.5))) ]), layout=Layout(title='Quarter 1 Growth', autosize=False, width=500, height=500, xaxis=XAxis(title='GDP per Capita', showgrid=False, zeroline=False), yaxis=YAxis(title='Percent', showline=False), margin=Margin(l=65, r=50, b=65, t=90))) print(fig) print('\n\n') fig.strip_style() print(fig) print('\n\n') comp_fig = Figure(data=Data([ Scatter(x=[52698, 43117], y=[53, 31], mode='markers', name='North America', text=['United States', 'Canada'], marker=Marker(line=Line())), Scatter( x=[39317, 37236, 35650, 30066, 29570, 27159, 23557, 21046, 18007], y=[33, 20, 13, 19, 27, 19, 49, 44, 38], mode='markers', name='Europe', text=[ 'Germany', 'Britain', 'France', 'Spain', 'Italy', 'Czech Rep.', 'Greece', 'Poland' ], marker=Marker(line=Line())), Scatter(x=[42952, 37037, 33106, 17478, 9813, 5253, 4692, 3899], y=[23, 42, 54, 89, 14, 99, 93, 70], mode='markers', name='Asia/Pacific', text=[ 'Australia', 'Japan', 'South Korea', 'Malaysia', 'China', 'Indonesia', 'Philippines', 'India' ], marker=Marker(line=Line())), Scatter(x=[19097, 18601, 15595, 13546, 12026, 7434, 5419], y=[43, 47, 56, 80, 86, 93, 80], mode='markers', name='Latin America', text=[ 'Chile', 'Argentina', 'Mexico', 'Venezuela', 'Venezuela', 'El Salvador', 'Bolivia' ], marker=Marker(line=Line())) ]), layout=Layout(title='Quarter 1 Growth', width=500, height=500, xaxis=XAxis(title='GDP per Capita'), yaxis=YAxis(title='Percent'), margin=Margin(l=65, r=50, b=65, t=90))) equivalent, msg = compare_dict(fig, comp_fig) print(msg) assert equivalent