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@ -41,7 +41,7 @@ class AIlib: |
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# Calculate the partial derivative for that prop |
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return dCost / dProp |
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def compareAIobjects( obj1, obj2 ): |
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def compareAIobjects( inp, obj1, obj2 ): |
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# Compare the two instances |
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res1 = AIlib.think( inp, obj1 ) |
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cost1 = AIlib.getThinkCost( inp, res1 ) # get the cost |
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@ -51,31 +51,46 @@ class AIlib: |
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# Actually calculate stuff |
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dCost = cost2 - cost1 |
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return dCost |
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return dCost, cost1 |
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def compareInstanceWeight( obj, theta, layerIndex, neuronIndex_X=0, neuronIndex_Y=0 ): |
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def compareInstanceWeight( obj, inp, theta:float, layerIndex:int, neuronIndex_X:int, neuronIndex_Y:int ): |
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# Create new a instance of the object |
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obj2 = copy(obj) # annoying way to create a new instance of the object |
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obj2.weights[layerIndex][neuronIndex_X][neuronIndex_Y] += theta # mutate the second objects neuron |
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dCost = AIlib.compareAIobjects( obj, obj2 ) # compare the two and get the dCost with respect to the weights |
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dCost, curCost = AIlib.compareAIobjects( inp, obj, obj2 ) # compare the two and get the dCost with respect to the weights |
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return dCost |
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return dCost, curCost |
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def compareInstanceBias( obj, theta, layerIndex, biasIndex ): |
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def compareInstanceBias( obj, inp, theta:float, layerIndex:int, biasIndex:int ): |
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obj2 = copy(obj) |
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obj2.bias[layerIndex][biasIndex] += theta # do the same thing for the bias |
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dCost = AIlib.compareAIobjects( obj, obj2 ) |
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obj2.bias[layerIndex][0][biasIndex] += theta # do the same thing for the bias |
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dCost, curCost = AIlib.compareAIobjects( inp, obj, obj2 ) |
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return dCost |
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return dCost, curCost |
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def getChangeInCost( obj, theta, layerIndex ): |
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def getChangeInCost( obj, inp, theta, layerIndex ): |
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mirrorObj = copy(obj) |
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# Fill the buffer with None so that the dCost can replace it later |
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mirrorObj.weights[layerIndex].fill(None) |
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mirrorObj.bias[layerIndex].fill(None) |
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dCost_W = np.zeros( shape = mirrorObj.weights[layerIndex].shape ) # fill it with a placeholder |
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dCost_B = np.zeros( shape = mirrorObj.bias[layerIndex].shape ) |
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# Get the cost change for the weights |
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weightLenX = len(dCost_W) |
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weightLenY = len(dCost_W[0]) |
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for x in range(weightLenX): # get the dCost for each x,y |
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for y in range(weightLenY): |
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dCost_W[x][y], curCostWeight = AIlib.compareInstanceWeight( obj, inp, theta, layerIndex, x, y ) |
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# Get the cost change for the biases |
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biasLenY = len(dCost_B[0]) |
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for index in range(biasLenY): |
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dCost_B[0][index], curCostBias = AIlib.compareInstanceBias( obj, inp, theta, layerIndex, index ) |
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return dCost_W, dCost_B, (curCostBias + curCostWeight)/2 |
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@ -84,6 +99,8 @@ class AIlib: |
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if( not grads ): |
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grads = [None] * (maxLayer+1) |
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dCost_W, dCost_B, meanCurCost = AIlib.getChangeInCost( obj, inp, theta, layerIndex ) |
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# Calculate the gradient for the layer |
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weightDer = AIlib.propDer( dCost_W, theta ) |
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biasDer = AIlib.propDer( dCost_B, theta ) |
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@ -98,7 +115,7 @@ class AIlib: |
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if( newLayer <= maxLayer ): |
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return AIlib.gradient( inp, obj, theta, maxLayer, newLayer, grads, obj1, obj2 ) |
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else: |
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return grads, res1, cost1 |
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return grads, meanCurCost |
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def mutateProps( inpObj, maxLen:int, gradient:list ): |
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obj = copy(inpObj) |
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@ -120,10 +137,10 @@ class AIlib: |
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while( not curCost or curCost > targetCost ): # targetCost is the target for the cost function |
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maxLen = len(obj.bias) |
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grads, res, curCost = AIlib.gradient( inp, obj, theta, maxLen - 1 ) |
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grads, curCost = AIlib.gradient( inp, obj, theta, maxLen - 1 ) |
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obj = AIlib.mutateProps( obj, maxLen, grads ) # mutate the props for next round |
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print("Cost:", curCost, "|", inp, res) |
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print("Cost:", curCost) |
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print("DONE\n") |
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