def checkDType(dtype):
nError = 0
for transA in ['N', 'T', 'C']:
if (transA == 'N'):
sizeA = [2, 3]
else:
sizeA = [3, 2]
for transB in ['N', 'T', 'C']:
if (transB == 'N'):
sizeB = [3, 4]
else:
sizeB = [4, 3]
for orderA in ['F', 'C']:
A = ocean.tensor(sizeA, orderA, dtype)
A.copy(ocean.arange(sizeA[0] * sizeA[1], dtype).reshape(sizeA))
An = ocean.tensor(sizeA, dtype)
An.copy(A)
for orderB in ['F', 'C']:
B = ocean.tensor(sizeB, orderB, dtype)
B.copy(
ocean.arange(sizeB[0] * sizeB[1],
dtype).reshape(sizeB))
Bn = ocean.tensor(sizeB, dtype)
Bn.copy(B)
for orderC in ['F', 'C']:
C = ocean.tensor([2, 4], orderC, dtype)
print(
"Setting: transA='%s', transB='%s', orderA='%s', orderB='%s', orderC='%s'\n"
% (transA, transB, orderA, orderB, orderC))
ocean.gemm(1, A, transA, B, transB, 0, C)
Cn = ocean.gemm(1, An, transA, Bn, transB)
if (not ocean.all(C == Cn)):
expectedStr = str(C).replace('\n', '\n ')
obtainedStr = str(Cn).replace('\n', '\n ')
print("Expected : %s" % expectedStr)
print("Obtained : %s" % obtainedStr)
nError += 1
else:
expectedStr = str(C).replace('\n', '\n ')
print("Success : %s" % expectedStr)
if (nError == 0):
print("All checks passed for data type %s" % dtype.name)
dtypes = [
ocean.int8, ocean.uint8, ocean.int32, ocean.float, ocean.chalf,
ocean.cfloat
]
values = [-1, 0, 1, 1 + 2j, 0 + 2j, 0 - 2j, 0 + 0j]
for dtype in dtypes:
print("\n========= Scalar %s =========" % dtype.name)
print([dtype(value) for value in values])
print([ocean.sign(dtype(value)) for value in values])
for dtype in dtypes:
print("\n========= Tensor %s =========" % dtype.name)
a = ocean.asTensor(values, dtype)
b = ocean.tensor(len(values), ocean.int8)
print(a)
print(ocean.sign(a))
ocean.sign(a, b)
print(b)
print("\n========= Exceptions =========")
s = ocean.nan
print(s)
print(ocean.sign(s))
print(ocean.sign([s]))
s = ocean.cfloat(0)
s.imag = ocean.nan
print(s)
print(ocean.sign(s))
import pyOcean_cpu as ocean
device = ocean.cpu
dtypes = [ocean.int8, ocean.int16, ocean.float, ocean.chalf, ocean.cdouble]
otypes = [ocean.float, ocean.uint8, ocean.double, ocean.int32, ocean.chalf]
print("\n========= fabs =========")
for (dtype, otype) in zip(dtypes, otypes):
a = ocean.asTensor([-3 - 4j], dtype, device)
b = ocean.tensor([1], otype, device)
ocean.fabs(a, b)
print(b)
print("\n========= absolute =========")
for (dtype, otype) in zip(dtypes, otypes):
a = ocean.asTensor([-3 - 4j], dtype, device)
b = ocean.tensor([1], otype, device)
ocean.absolute(a, b)
print(b)
import pyOcean_cpu as ocean
A = ocean.asTensor([[0,1],[2,3]],'r',ocean.float)
b = ocean.asTensor([1,2],ocean.float)
B = b.reshape([2,1]);
c = ocean.tensor([2],ocean.float);
C = ocean.tensor([2,1],ocean.float);
print(A)
print(b)
print(B)
print("\n====== A*b ======");
print(ocean.gemm(1,A,b))
print("\n====== A*B ======");
print(ocean.gemm(1,A,B))
print("\n====== c = A*b ======");
ocean.gemm(1,A,b,0,c); print(c)
print("\n====== C = A*b ======");
ocean.gemm(1,A,b,0,C); print(C)
print("\n====== c = A*B ======");
ocean.gemm(1,A,B,0,c); print(c)
print("\n====== C = A*B ======");
ocean.gemm(1,A,B,0,C); print(C)
import pyOcean_cpu as ocean
import sys
def exceptionMsg() :
print("Expected error: %s" % str(sys.exc_info()[1]))
def failTest(command) :
try :
eval(command)
except :
exceptionMsg()
a = ocean.asTensor([1,2,3],ocean.int8)
b = ocean.tensor([3],ocean.uint16)
ocean.square(a,b)
print(b)
b.fill(0)
b.byteswap()
ocean.square(a,b)
print(b)
a.byteswap()
b.fill(0)
ocean.square(a,b)
print(b)
b.byteswap()
b.fill(0)
ocean.square(a,b)
import pyOcean_cpu as ocean
device = ocean.cpu
dtypes = [ocean.bool, ocean.int8, ocean.uint8]
for dtype in dtypes:
print("\n========= Tensor %s (%s) =========" % (dtype.name, device.name))
a = ocean.asTensor([0, 1, -1], dtype, device)
print(a)
print(ocean.bitwiseNot(a))
print(~a)
print(ocean.logicalNot(a))
r = ocean.tensor(3, dtype, device)
ocean.bitwiseNot(a, r)
print(r)
ocean.logicalNot(a, r)
print(r)
import pyOcean_cpu as ocean
import sys
def exceptionMsg():
print("Expected error: %s" % str(sys.exc_info()[1]))
def failTest(command):
try:
eval(command)
except:
exceptionMsg()
a = ocean.tensor([2, 3, 4, 5])
failTest("a.permuteAxes(range(100))")
failTest("a.permuteAxes([1,2,3,4,5])")
failTest("a.permuteAxes([-1,1,2,3])")
failTest("a.permuteAxes([1,2,3,20])")
failTest("a.permuteAxes([1,2,3,1])")
import pyOcean_cpu as ocean a = ocean.asTensor([1, 2, 3]) b = ocean.tensor(a.size, a.dtype) a.byteswap() b.copy(a) print(a) print(b)
import pyOcean_cpu as ocean
a = ocean.asTensor([[0,1],[2,3]],'r',ocean.float)
b = ocean.asTensor([1,2],ocean.float)
c = ocean.tensor([2],[128],ocean.float);
print(a)
print(b)
ocean.gemm(1,a,b,0,c)
print(c)
print("\n----------------------------------------")
a = ocean.asTensor([1.,2,3]).reshape([3,1]);
b = ocean.asTensor([2.,3,4],'r');
c = ocean.tensor([3,3],a.dtype);
print(a)
print(b)
ocean.gemm(1,a,b,0,c);
print(c)
#print(ocean.gemm(1,a,b))
import pyOcean_cpu as ocean a = ocean.tensor([0]) a.fill(3) print(a)
import pyOcean_cpu as ocean # Fortran-style strides a = ocean.tensor([3, 4], 'F') a.copy(range(a.nelem)) print(a) print(a.strides) b = a.reshape([2, 3, 2]) print(b) print(b.storage.obj == a.storage.obj) a.reshape([2, 6], True) print(a) # C-style strides a = ocean.tensor([3, 4], 'C') a.copy(range(a.nelem)) print(a) print(a.strides) b = a.reshape([2, 3, 2]) print(b) print(b.storage.obj == a.storage.obj) a.reshape([2, 6], True) print(a)
def exceptionMsg():
print("Expected error: %s" % str(sys.exc_info()[1]))
def failTest(command):
try:
eval(command)
except:
exceptionMsg()
# Boolean
a = ocean.asTensor([True, False, False])
print(-a)
# Unsigned integer (8)
a = ocean.arange(5, ocean.uint8)
print(-a)
# Different types
types = [ocean.int16, ocean.half, ocean.float, ocean.cdouble]
for t in types:
a = ocean.linspace(-5, 5, 11, t)
print(-a)
# Result in unsigned integer
a = ocean.arange(-5, 5, ocean.int8)
b = ocean.tensor(a.size, ocean.uint8)
failTest("ocean.negative(a,b)")
import pyOcean_cpu as ocean
device = ocean.cpu
dtypes = [ocean.bool, ocean.int8, ocean.uint8, ocean.uint32]
for dtype in dtypes:
print("\n========= Tensor %s (%s) =========" % (dtype.name, device.name))
a = ocean.asTensor([0, 1, 2, 9], 'r', dtype, device)
b = ocean.asTensor([0, 1, 2, 4, 6, 8], ocean.uint8, device)
r = ocean.tensor([6, 4], dtype, device)
print(a)
print(b)
print(a << b)
ocean.bitshiftLeft(a, b, r)
print(r)
a <<= 1
print(a)
import pyOcean_cpu as ocean a = ocean.tensor([5, 5]) a.fill(0) print(a) a.diag().fill(3) a.fliplr().diag().fill(5) print(a)
import pyOcean_cpu as ocean
print("------ Original matrix ------")
A = ocean.tensor([1, 4, 1, 3])
A.copy(range(A.nelem))
print("\n------ Squeeze all axes ------")
print(A.squeeze())
print("\n------ Squeeze only axis 0 ------")
print(A.squeeze(0))
print("\n------ In-place squeezing of axis 2 ------")
A.squeeze(2, True)
print(A)
print("\n------ In-place squeezing of all axes ------")
A.squeeze(True)
print(A)
import pyOcean_cpu as ocean
import sys
def fail(command):
try:
eval(command)
print("%s: SUCCEEDED BUT SHOULD HAVE FAILED!" % command)
except:
print("%s: Expected error: %s" % (command, str(sys.exc_info()[1])))
a = ocean.tensor([3, 4])
b = ocean.tensor([3])
c = ocean.tensor([3, 1])
fail("ocean.sum(a,[])")
fail("ocean.sum(a,0,b)")
fail("ocean.sum(a,1,True,b)")
fail("ocean.sum(a,[1,1])")
fail("ocean.sum(a,[-3])")
fail("ocean.sum(a,[2])")
fail("ocean.sum(a,[1,-1])")
## Conversion from storage to tensor import pyOcean_cpu as ocean s = ocean.storage(14) s.dtype = ocean.cfloat s.asTensor().fill(1 + 2j) print(s) s.dtype = ocean.float print(s) t = ocean.tensor(s, 0, [3, 4]) print(t) t = ocean.tensor(s, 4, [3, 4], 'F', 1) print(t) t = ocean.tensor(s, 4, [3, 2], 'F', 1, ocean.cfloat) print(t)
import pyOcean_cpu as ocean
device = ocean.cpu
dtypes = [ocean.bool, ocean.int8, ocean.uint8, ocean.int32]
v1 = [1,2,3,7,127]
v2 = [0,1,2,4,8,15]
for dtype in dtypes :
print("\n========= Tensor %s (%s) =========" % (dtype.name, device.name))
a1 = ocean.asTensor(v1,'r',dtype,device)
a2 = ocean.asTensor(v2,dtype,device).reshape([len(v2),1])
r = ocean.tensor([len(v2),len(v1)],dtype,device)
print(a1)
print(a2)
print("\n------ bitwiseAnd(a1,a2), (a1 & a2), bitwiseAnd(a1,a2,r) ------")
print(ocean.bitwiseAnd(a1,a2))
print(a1 & a2)
ocean.bitwiseAnd(a1,a2,r)
print(r)
import pyOcean_cpu as ocean a = ocean.tensor([5, 6]) a.T.copy(range(a.nelem)) print(a) v = a.split(0, 2) print(v) v = a.split(1, 2) print(v)
import pyOcean_cpu as ocean
import sys
def exceptionMsg():
print("Expected error: %s" % str(sys.exc_info()[1]))
def failTest(command):
try:
eval(command)
except:
exceptionMsg()
a = ocean.asTensor([[1, 2, 0, 0, 3], [0, 4, 5, 0, 0]], 'R')
print(a)
print(ocean.find(a))
a = ocean.tensor([])
failTest("ocean.find(a)")
print(a)
v = a.split(0,[0,2,3,1])
for i in range(4) :
print("\n------ Slice %d ------" % (i+1))
print(v[i])
b = ocean.merge(v,0)
print(b)
print("\n------ Allowed case #1 ------")
ocean.merge(v,0,a)
print(a)
print("\n------ Allowed case #2 ------")
b = ocean.tensor(a.size, a.strides, a.dtype)
b.fill(0)
ocean.merge(v,0,b)
print(b)
print("\n------ Non-allowed case #1 ------")
v[-1] = v[-1].clone()
try :
ocean.merge(v,0,a)
except :
print("Expected error: merging along zero-strided dimension")
print("\n------ Non-allowed case #2 ------")
try :
ocean.merge(ocean.tensor(b.size),0,b)
## Square-root operation with overlap import pyOcean_cpu as ocean a = ocean.asTensor([4, 9, 16, 25]) a1 = ocean.tensor(a.storage, 0, [3]) a2 = ocean.tensor(a.storage, 1, [3]) print(a1) print(a2) ocean.sqrt(a1, a2) print(a1) print(a2)
import pyOcean_cpu as ocean
device = ocean.cpu
v1 = [1, 2, 3, 1, ocean.nan, 2 + 3j, 4 - 5j]
v2 = [3, 2, 1, 1, 1, 2 + 2j, 4 - 6j]
dtypes = [ocean.int8, ocean.uint8, ocean.float, ocean.chalf, ocean.cdouble]
for dtype in dtypes:
print("\n========= %s (%s) =========" % (dtype.name, device.name))
a1 = ocean.asTensor(v1, dtype, device)
a2 = ocean.asTensor(v2, dtype, device)
r1 = ocean.tensor([len(v1)], dtype, device)
r2 = ocean.tensor([len(v1)], ocean.cfloat, device)
print(a1)
print(a2)
print("\n------ min(a1,a2), min(a2,a1), max(a1,a2) ------")
print(ocean.min(a1, a2))
print(ocean.min(a2, a1))
print(ocean.max(a1, a2))
print("\n------ fmin(a1,a2), fmin(a2,a1), fmax(a1,a2) ------")
print(ocean.fmin(a1, a2))
print(ocean.fmin(a2, a1))
print(ocean.fmax(a1, a2))
print("\n------ fmin(a1,a2,r1), fmin(a1,a2,r2) ------")
ocean.fmin(a1, a2, r1)
ocean.fmin(a1, a2, r2)
print(r1)
except:
exceptionMsg()
device = ocean.cpu
print("\n========= Tensor and tensor =========")
a = ocean.asTensor([1, 2, 3, 4], 'r', ocean.float, device)
b = ocean.asTensor([0, 0.5, 1, 2], ocean.float, device)
print(a**b)
print(pow(a, b))
print(ocean.power(a, b))
c = ocean.tensor([4, 4], ocean.float, device)
ocean.power(a, b, c)
print(c)
c = ocean.tensor([4, 4], ocean.cdouble, device)
ocean.power(a, b, c)
print(c)
c = ocean.tensor([4, 4], ocean.int16, device)
ocean.power(a, b, c)
print(c)
a **= ocean.asTensor([1, 1, 1, 0.5], 'r', ocean.float, device)
print(a)
failTest("pow(a,b,3)")
import pyOcean_cpu as ocean
import sys
def exceptionMsg():
print("Expected error: %s" % str(sys.exc_info()[1]))
def failTest(command):
try:
eval(command)
except:
exceptionMsg()
a = ocean.tensor([2])
b = ocean.tensor([2, 3])
a.fill(10)
c = a.broadcastLike(b)
print(a)
print(c)
print(c.strides)
c.fill(9)
print(a)
print(c)
print(c.strides)
d = a.shallowCopy()
import pyOcean_cpu as ocean print(ocean.tensor([]).isScalar()) print(ocean.tensor([2]).isScalar()) print(ocean.tensor([1]).isScalar())
import pyOcean_cpu as ocean a = ocean.asTensor(range(24)) b = a.reshape([2, 3, 4]) print(b) a = ocean.tensor([4, 6], [7, 1]) a.copy(range(a.nelem)) b = a.reshape([2, 3, 4]) print(a) print(b) b = a.reshape([6, 4]) print(b) a.reshape([6, 4], True) print(a)
## Basic tensor properties import pyOcean_cpu as ocean T = ocean.tensor([2, 3], ocean.float) T.storage.zero() print(T) print(T.storage) print(T.device) print(T.dtype) print(T.ndims) print(T.size) print(T.strides) print(T.offset) print(T.device) print(T.elemsize) print(T.refcount) print(T.footer)
import pyOcean_cpu as ocean a = ocean.tensor([2, 3], [0, ocean.float.size], ocean.float) a.T.copy([1, 2, 3]) print(a)
import pyOcean_cpu as ocean
a = ocean.tensor([2, 6], [0, 0], ocean.cpu)
b = ocean.tensor([2, 6], [0, 1], ocean.cpu)
c = ocean.tensor([2, 6, 2], [0, 0, 1], ocean.cpu)
d = ocean.tensor([2, 6], [0, 0], ocean.cpu)
a.fill(1)
b.fill(2)
c.fill(3)
d.fill(4)
print(a)
print(b)
print(c)
print(d)
print("\n--------- Copy ---------\n")
b.copy(a)
c.copy(a)
d.copy(a)
print(a)
print(b)
print(c)
print(d)
print("\n--------- Storage ---------\n")
print(a.storage)
print(b.storage)
