Made PCA more generic, even enable PCA of existing PCA-results as dimension names are modified to handle dimension name component in input.
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@ -392,9 +392,11 @@ class LinePlot(Plot):
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rows, cols = self._bg_matrix.shape
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rows, cols = self._bg_matrix.shape
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self.ax.imshow(self._bg_matrix, cmap=cm.Greys, extent=(0.5, cols+0.5, self._ymin, self._ymax))
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self.ax.imshow(self._bg_matrix, cmap=cm.Greys, extent=(0.5, cols+0.5, self._ymin, self._ymax))
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dim_2, dim_1 = self._dataset.get_dim_names()
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if selection:
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if selection:
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ids = selection['ids'] # current identifiers
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ids = selection[dim_2] # current identifiers
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index = [ind for id,ind in self._dataset['ids'].items() if id in ids] #conversion to index
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index = [ind for id,ind in self._dataset[dim_2].items() if id in ids] #conversion to index
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for i in index:
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for i in index:
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line = self._dataset.get_matrix()[i]
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line = self._dataset.get_matrix()[i]
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self.ax.plot(range(1, len(line)+1), line)
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self.ax.plot(range(1, len(line)+1), line)
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@ -3,6 +3,7 @@ from system import dataset, logger, plots, workflow
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from scipy import randn
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from scipy import randn
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import cPickle
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import cPickle
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class AffyWorkflow (workflow.Workflow):
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class AffyWorkflow (workflow.Workflow):
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name = 'Affy Workflow'
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name = 'Affy Workflow'
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@ -34,7 +35,7 @@ class TestDataFunction(workflow.Function):
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logger.log('notice', 'Injecting foo test data')
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logger.log('notice', 'Injecting foo test data')
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x = randn(20,30)
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x = randn(20,30)
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X = dataset.Dataset(x)
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X = dataset.Dataset(x)
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return [X, plots.SinePlot()]
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return [X, plots.LinePlot(X)]
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class DatasetLoadFunction(workflow.Function):
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class DatasetLoadFunction(workflow.Function):
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@ -153,22 +154,32 @@ class PCAFunction(workflow.Function):
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import rpy
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import rpy
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dim_2, dim_1 = data.get_dim_names()
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dim_2, dim_1 = data.get_dim_names()
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silent_eval = rpy.with_mode(rpy.NO_CONVERSION, rpy.r)
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silent_eval = rpy.with_mode(rpy.NO_CONVERSION, rpy.r)
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rpy.with_mode(rpy.NO_CONVERSION, rpy.r.assign)("m", data.get_matrix())
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rpy.with_mode(rpy.NO_CONVERSION, rpy.r.assign)("m", data.get_matrix())
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silent_eval("t = prcomp(t(m))")
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silent_eval("t = prcomp(t(m))")
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# we make a unique name for component dimension
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c = 0
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component_dim = prefix = "component"
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while component_dim in data.get_all_dims():
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component_dim = prefix + "_" + str(c)
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c += 1
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T_ids = map(str, range(1, rpy.r("dim(t$x)")[1]+1))
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T_ids = map(str, range(1, rpy.r("dim(t$x)")[1]+1))
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T = dataset.Dataset(rpy.r("t$x"), [(dim_1, data.get_identifiers(dim_1)),
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T = dataset.Dataset(rpy.r("t$x"), [(dim_1, data.get_identifiers(dim_1)),
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("component", T_ids)], name="T")
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(component_dim, T_ids)],
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all_dims = data.get_all_dims(), name="T")
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P = dataset.Dataset(rpy.r("t$rotation"), [(dim_2, data.get_identifiers(dim_2)),
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P = dataset.Dataset(rpy.r("t$rotation"), [(dim_2, data.get_identifiers(dim_2)),
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("component", T_ids)], name="P")
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(component_dim, T_ids)],
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all_dims = data.get_all_dims(), name="P")
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# cleanup
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# cleanup
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rpy.r.rm(["t", "m"])
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rpy.r.rm(["t", "m"])
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loading_plot = plots.ScatterPlot(P,'ids','component','1','2', "Loadings")
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loading_plot = plots.ScatterPlot(P, dim_2, component_dim, '1', '2',
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score_plot = plots.ScatterPlot(T,'filename','component','1','2', "Scores")
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"Loadings")
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score_plot = plots.ScatterPlot(T, dim_1,component_dim, '1', '2',
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"Scores")
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return [T, P, loading_plot, score_plot]
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return [T, P, loading_plot, score_plot]
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