working

2024-11-10 06:54:44 +00:00 · 2020-03-06 11:50:07 -06:00 · 2020-03-06 11:50:07 -06:00 · 82567a5f69
commit 82567a5f69
parent 548668e2a4
3 changed files with 51 additions and 46 deletions
--- a/analysis/analysis/analysis.py
+++ b/analysis/analysis/analysis.py
@ -7,10 +7,12 @@
 #    current benchmark of optimization: 1.33 times faster
 # setup:

-__version__ = "1.1.13.001"
+__version__ = "1.1.13.002"

 # changelog should be viewed using print(analysis.__changelog__)
 __changelog__ = """changelog:
+    1.1.13.002:
+        - removed torch requirement, and moved Regression back to regression.py
    1.1.13.001:
        - bug fix with linear regression not returning a proper value
        - cleaned up regression
--- a/analysis/analysis/regression.py
+++ b/analysis/analysis/regression.py
@ -1,27 +1,28 @@
 # Titan Robotics Team 2022: CUDA-based Regressions Module
 # Written by Arthur Lu & Jacob Levine
 # Notes:
-#    this should be imported as a python module using 'import regression'
-#    this should be included in the local directory or environment variable
-#    this module is cuda-optimized and vectorized (except for one small part)
+#   this module has been automatically inegrated into analysis.py, and should be callable as a class from the package
+#   this module is cuda-optimized and vectorized (except for one small part)
 # setup:

-__version__ = "1.0.0.002"
+__version__ = "1.0.0.003"

-# changelog should be viewed using print(regression.__changelog__)
+# changelog should be viewed using print(analysis.regression.__changelog__)
 __changelog__ = """
-    1.0.0.002:
-        -Added more parameters to log, exponential, polynomial
-        -Added SigmoidalRegKernelArthur, because Arthur apparently needs
-        to train the scaling and shifting of sigmoids
-
-    1.0.0.001:
-        -initial release, with linear, log, exponential, polynomial, and sigmoid kernels
-        -already vectorized (except for polynomial generation) and CUDA-optimized
+1.0.0.003:
+    - bug fixes
+1.0.0.002:
+    -Added more parameters to log, exponential, polynomial
+    -Added SigmoidalRegKernelArthur, because Arthur apparently needs
+    to train the scaling and shifting of sigmoids
+1.0.0.001:
+    -initial release, with linear, log, exponential, polynomial, and sigmoid kernels
+    -already vectorized (except for polynomial generation) and CUDA-optimized
 """

 __author__ = (
    "Jacob Levine <jlevine@imsa.edu>",
+    "Arthur Lu <learthurgo@gmail.com>"
 )

 __all__ = [
@ -39,35 +40,13 @@ __all__ = [
    'CustomTrain'
 ]

-
-# imports (just one for now):
-
-import torch
+global device

 device = "cuda:0" if torch.torch.cuda.is_available() else "cpu"

 #todo: document completely

-def factorial(n):
-    if n==0:
-        return 1
-    else:
-        return n*factorial(n-1)
-def num_poly_terms(num_vars, power):
-    if power == 0:
-        return 0
-    return int(factorial(num_vars+power-1) / factorial(power) / factorial(num_vars-1)) + num_poly_terms(num_vars, power-1)
-
-def take_all_pwrs(vec,pwr):
-    #todo: vectorize (kinda)
-    combins=torch.combinations(vec, r=pwr, with_replacement=True)
-    out=torch.ones(combins.size()[0])
-    for i in torch.t(combins):
-        out *= i
-    return torch.cat(out,take_all_pwrs(vec, pwr-1))
-
-def set_device(new_device):
-    global device
+def set_device(self, new_device):
    device=new_device

 class LinearRegKernel():
@ -154,20 +133,39 @@ class PolyRegKernel():
    power=None
    def __init__(self, num_vars, power):
        self.power=power
-        num_terms=num_poly_terms(num_vars, power)
+        num_terms=self.num_poly_terms(num_vars, power)
        self.weights=torch.rand(num_terms, requires_grad=True, device=device)
        self.bias=torch.rand(1, requires_grad=True, device=device)
        self.parameters=[self.weights,self.bias]
+    def num_poly_terms(self,num_vars, power):
+        if power == 0:
+            return 0
+        return int(self.factorial(num_vars+power-1) / self.factorial(power) / self.factorial(num_vars-1)) + self.num_poly_terms(num_vars, power-1)
+    def factorial(self,n):
+        if n==0:
+            return 1
+        else:
+            return n*self.factorial(n-1)
+    def take_all_pwrs(self, vec, pwr):
+        #todo: vectorize (kinda)
+        combins=torch.combinations(vec, r=pwr, with_replacement=True)
+        out=torch.ones(combins.size()[0]).to(device).to(torch.float)
+        for i in torch.t(combins).to(device).to(torch.float):
+            out *= i
+        if pwr == 1:
+            return out
+        else:
+            return torch.cat((out,self.take_all_pwrs(vec, pwr-1)))
    def forward(self,mtx):
        #TODO: Vectorize the last part
        cols=[]
        for i in torch.t(mtx):
-            cols.append(take_all_pwrs(i,self.power))
+            cols.append(self.take_all_pwrs(i,self.power))
        new_mtx=torch.t(torch.stack(cols))
        long_bias=self.bias.repeat([1,mtx.size()[1]])
        return torch.matmul(self.weights,new_mtx)+long_bias

-def SGDTrain(kernel, data, ground, loss=torch.nn.MSELoss(), iterations=1000, learning_rate=.1, return_losses=False):
+def SGDTrain(self, kernel, data, ground, loss=torch.nn.MSELoss(), iterations=1000, learning_rate=.1, return_losses=False):
    optim=torch.optim.SGD(kernel.parameters, lr=learning_rate)
    data_cuda=data.to(device)
    ground_cuda=ground.to(device)
@ -192,7 +190,7 @@ def SGDTrain(kernel, data, ground, loss=torch.nn.MSELoss(), iterations=1000, lea
                optim.step()
        return kernel

-def CustomTrain(kernel, optim, data, ground, loss=torch.nn.MSELoss(), iterations=1000, return_losses=False):
+def CustomTrain(self, kernel, optim, data, ground, loss=torch.nn.MSELoss(), iterations=1000, return_losses=False):
    data_cuda=data.to(device)
    ground_cuda=ground.to(device)
    if (return_losses):
@ -214,4 +212,4 @@ def CustomTrain(kernel, optim, data, ground, loss=torch.nn.MSELoss(), iterations
                ls=loss(pred,ground_cuda)
                ls.backward()
                optim.step()
-        return kernel
+        return kernel
--- a/analysis/superscript.py
+++ b/analysis/superscript.py
@ -3,11 +3,16 @@
 # Notes:
 # setup:

-__version__ = "0.0.3.000"
+__version__ = "0.0.4.000"

 # changelog should be viewed using print(analysis.__changelog__)
 __changelog__ = """changelog:
-    0.0.3.00:
+    0.0.4.000:
+        - fixed spelling issue in __changelog__
+        - addressed nan bug in regression
+        - fixed errors on line 335 with metrics calling incorrect key "glicko2"
+        - fixed errors in metrics computing 
+    0.0.3.000:
        - added analysis to pit data
    0.0.2.001:
        - minor stability patches
@ -124,7 +129,7 @@ def main():
        d.set_analysis_flags(apikey, "latest_update", {"latest_update":current_time})
        
        print(" pushing to database")
-        push_to_database(apikey, competition, results, metrics, pit)
+        push_to_database(apikey, competition, results, pit)
        print(" pushed to database")

 def load_config(file):