gan api modified

4767fb67 · zchen0211 · 4238b9b9 · 4767fb67
隐藏空白更改
内联并排

Showing with 53 addition and 14 deletion

doc/design/gan_api.md doc/design/gan_api.md +53 -14

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--- a/doc/design/gan_api.md
+++ b/doc/design/gan_api.md
@@ -139,10 +139,10 @@ class DCGAN(object):
 - Define data readers as placeholders to hold the data;
 - Build generator and discriminators;
 - Define two training losses for discriminator and generator, respectively. 
+If we have execution dependency engine to back-trace all tensors, the module building our GAN model will be like this:
 ```python
 class DCGAN(object):
  def build_model(self):
-    # input data
    if self.y_dim:
        self.y = pd.data(pd.float32, [self.batch_size, self.y_dim])
    self.images = pd.data(pd.float32, [self.batch_size, self.im_size, self.im_size])
@@ -151,17 +151,17 @@ class DCGAN(object):
    # step 1: generate images by generator, classify real/fake images with discriminator
    if self.y_dim: # if conditional GAN, includes label
-      self.G = self.generator(self.z, self.y)
+        self.G = self.generator(self.z, self.y)
-      self.D_t = self.discriminator(self.images)
+        self.D_t = self.discriminator(self.images)
-      # generated fake images
+        # generated fake images
-      self.sampled = self.sampler(self.z, self.y)
+        self.sampled = self.sampler(self.z, self.y)
-      self.D_f = self.discriminator(self.images)
+        self.D_f = self.discriminator(self.G)
    else: # original version of GAN
-      self.G = self.generator(self.z)
+        self.G = self.generator(self.z)
-      self.D_t = self.discriminator(self.images)
+        self.D_t = self.discriminator(self.images)
-      # generate fake images
+        # generate fake images
-      self.sampled = self.sampler(self.z)
+        self.sampled = self.sampler(self.z)
-      self.D_f = self.discriminator(self.images)
+        self.D_f = self.discriminator(self.images)
    # step 2: define the two losses
    self.d_loss_real = pd.reduce_mean(pd.cross_entropy(self.D_t, np.ones(self.batch_size))
@@ -171,6 +171,44 @@ class DCGAN(object):
    self.g_loss = pd.reduce_mean(pd.cross_entropy(self.D_f, np.ones(self.batch_szie))
 ```
+If we do not have dependency engine but blocks, the module building our GAN model will be like this:
+```python
+class DCGAN(object):
+  def build_model(self, default_block):
+    # input data in the default block
+    if self.y_dim:
+        self.y = pd.data(pd.float32, [self.batch_size, self.y_dim])
+    self.images = pd.data(pd.float32, [self.batch_size, self.im_size, self.im_size])
+    # self.faked_images = pd.data(pd.float32, [self.batch_size, self.im_size, self.im_size])
+    self.z = pd.data(tf.float32, [None, self.z_size])
+    # step 1: generate images by generator, classify real/fake images with discriminator
+    with pd.default_block().g_block():
+      if self.y_dim: # if conditional GAN, includes label
+        self.G = self.generator(self.z, self.y)
+        self.D_g = self.discriminator(self.G, self.y)
+      else: # original version of GAN
+        self.G = self.generator(self.z)
+        self.D_g = self.discriminator(self.G, self.y)
+      self.g_loss = pd.reduce_mean(pd.cross_entropy(self.D_g, np.ones(self.batch_szie))
+    with pd.default_block().d_block():
+      if self.y_dim: # if conditional GAN, includes label
+        self.D_t = self.discriminator(self.images, self.y)
+        self.D_f = self.discriminator(self.G, self.y)
+      else: # original version of GAN
+        self.D_t = self.discriminator(self.images)
+        self.D_f = self.discriminator(self.G)
+      # step 2: define the two losses
+      self.d_loss_real = pd.reduce_mean(pd.cross_entropy(self.D_t, np.ones(self.batch_size))
+      self.d_loss_fake = pd.reduce_mean(pd.cross_entropy(self.D_f, np.zeros(self.batch_size))
+      self.d_loss = self.d_loss_real + self.d_loss_fake
+```
+Some small confusion and problems with this design:
+- D\_g and D\_f are actually the same thing, but has to be written twice;
+- Requires ability to create a block anytime, rather than in if-else or rnn only;
 ## Main function for the demo:
 Generally, the user of GAN just need to the following things:
 - Define an object as DCGAN class;
@@ -183,9 +221,10 @@ import numpy as np
 import logging
 if __name__ == "__main__":
-    # dcgan
+    # dcgan class in the default graph/block
-    dcgan = DCGAN()
+    with pd.block() as def_block:
-    dcgan.build_model()
+      dcgan = DCGAN()
+      dcgan.build_model(def_block)
    # load mnist data
    data_X, data_y = self.load_mnist()