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chinese_samplecode_processor.py
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chinese_samplecode_processor.py
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import math
import os
import pickle
import shutil
import subprocess
import multiprocessing
import sys
def remove_desc_code(srcls, filename):
if filename == 'fluid_cn/one_hot_cn.rst':
srcls.pop(13)
srcls.pop(28)
srcls.pop(44)
if filename == 'layers_cn/one_hot_cn.rst':
srcls.pop(15)
srcls.pop(30)
srcls.pop(46)
if filename == 'profiler_cn/profiler_cn.rst':
srcls.pop(41)
if filename == 'layers_cn/natural_exp_decay_cn.rst':
srcls.pop(13)
if filename == 'layers_cn/transpose_cn.rst':
srcls.pop(20)
if filename == 'layers_cn/array_length_cn.rst':
srcls.pop(36)
if filename == 'layers_cn/inverse_time_decay_cn.rst':
srcls.pop(13)
if filename == 'layers_cn/stack_cn.rst':
srcls.pop(12)
srcls.pop(33)
if filename == 'layers_cn/sums_cn.rst':
srcls.pop(11)
if filename == 'layers_cn/sum_cn.rst':
for i in range(len(srcls) - 1, 61, -1):
srcls.pop(i)
if filename == 'layers_cn/softmax_cn.rst':
srcls.pop(30)
srcls.pop(57)
if filename == 'layers_cn/array_write_cn.rst':
srcls.pop(37)
if filename == 'layers_cn/lod_append_cn.rst':
srcls.pop(11)
if filename == 'layers_cn/reorder_lod_tensor_by_rank_cn.rst':
srcls.pop(25)
if filename == 'layers_cn/round_cn.rst':
srcls.pop(10)
if filename == 'layers_cn/squeeze_cn.rst':
srcls.pop(11)
srcls.pop(19)
srcls.pop(27)
if filename == 'layers_cn/unsqueeze_cn.rst':
srcls.pop(11)
if filename == 'layers_cn/array_read_cn.rst':
srcls.pop(51)
if filename == 'layers_cn/scatter_cn.rst':
srcls.pop(9)
if filename == 'layers_cn/topk_cn.rst':
srcls.pop(11)
if filename == 'optimizer_cn/ModelAverage_cn.rst':
srcls.pop(15)
return srcls
def check_indent(code_line):
indent = ""
for c in code_line:
if c == '\t':
indent += ' '
elif c == ' ':
indent += ' '
if c != ' ' and c != '\t':
break
return indent
def find_all(src_str, substr):
indices = []
get_one = src_str.find(substr)
while get_one != -1:
indices.append(get_one)
get_one = src_str.find(substr, get_one + 1)
return indices
def extract_sample_code(srcfile, status_all):
filename = srcfile.name
srcc = srcfile.read()
srcfile.seek(0, 0)
srcls = srcfile.readlines()
srcls = remove_desc_code(
srcls, filename) # remove description info for samplecode
status = []
sample_code_begins = find_all(srcc, " code-block:: python")
if len(sample_code_begins) == 0:
status.append(-1)
else:
for i in range(0, len(srcls)):
if srcls[i].find(".. code-block:: python") != -1:
content = ""
start = i
blank_line = 1
while srcls[start + blank_line].strip() == '':
blank_line += 1
startindent = ""
# remove indent error
if srcls[start + blank_line].find("from") != -1:
startindent += srcls[start + blank_line][:srcls[
start + blank_line].find("from")]
elif srcls[start + blank_line].find("import") != -1:
startindent += srcls[start + blank_line][:srcls[
start + blank_line].find("import")]
else:
startindent += check_indent(srcls[start + blank_line])
content += srcls[start + blank_line][len(startindent):]
for j in range(start + blank_line + 1, len(srcls)):
# planish a blank line
if not srcls[j].startswith(startindent) and srcls[
j] != '\n':
break
if srcls[j].find(" code-block:: python") != -1:
break
content += srcls[j].replace(startindent, "", 1)
status.append(run_sample_code(content, filename))
status_all[filename] = status
return status_all
def run_sample_code(content, filename):
# three status ,-1:no sample code; 1: running error; 0:normal
fname = filename.split("/")[-1].replace("_cn", "").replace(".rst",
"") + ".py"
tempf = open("temp/" + fname, 'w')
content = "# -*- coding: utf-8 -*-\n" + content
tempf.write(content)
tempf.close()
cmd = ["python", "temp/" + fname]
subprc = subprocess.Popen(
cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
_, error = subprc.communicate()
err = "".join(error.decode(encoding='utf-8'))
if subprc.returncode != 0:
print("\nSample code error found in ", filename, ":\n")
print(err)
status = 1
else:
status = 0
os.remove("temp/" + fname)
return status
def test(file):
temp = []
src = open(file, 'r')
status_all = {}
extract_sample_code(src, status_all)
temp.append(status_all)
src.close()
return temp
if os.path.isdir("temp"):
shutil.rmtree("temp")
if os.path.isdir("infer_model"):
shutil.rmtree("infer_model")
if os.path.isdir("image"):
shutil.rmtree("image")
if os.path.isdir("my_paddle_model"):
shutil.rmtree("my_paddle_model")
if os.path.isdir("my_paddle_vars"):
shutil.rmtree("my_paddle_vars")
if not os.path.isdir("temp"):
os.mkdir("temp")
output = []
if len(sys.argv) < 2:
print("Error: inadequate number of arguments")
print("Please one file")
sys.exit(1)
else:
if not os.path.exists(sys.argv[1]):
print("File not found")
sys.exit(1)
res = test(sys.argv[1])
output.append(res)
status_groups = {-1: [], 0: [], 1: []}
# polishes show format
ci_pass = True
for one_file in output:
for dicts in one_file:
for key in dicts:
status = dicts[key]
for ele in status:
if ele != 0:
ci_pass = False
break
if len(status) == 1:
status_groups[status[0]].append(key)
else:
for u in range(0, len(status)):
status_groups[status[u]].append(key + '_' + str(u + 1))
error_api = status_groups[-1] + status_groups[1]
total_error_number = len(error_api)
print("****************************************************")
print("----------------End of the Check--------------------")
print("****************************************************")
if total_error_number > 0:
print("Error sample code number is:{}".format(total_error_number))
type_one_number = len(status_groups[-1])
type_two_number = len(status_groups[1])
if type_two_number > 0:
print("Error type two sample number is:{}".format(type_two_number))
print("Error raised from type two:running error sample code.",
str(status_groups[1]))
if type_one_number > 0:
print("Error type one sample number is:{}".format(type_one_number))
print("Error raised from type one:no sample code.",
str(status_groups[-1]))
# no sample code not considered as error now.
if type_two_number == 0:
ci_pass = True
if not ci_pass:
print("Mistakes found in sample codes.")
exit(1)
else:
print("Sample code check is successful!")