def _create_repl(self):
cmd = self.executable
if 'octave-cli' not in cmd:
version_cmd = [self.executable, '--version']
version = subprocess.check_output(version_cmd).decode('utf-8')
if 'version 4' in version:
cmd += ' --no-gui'
# Interactive mode prevents crashing on Windows on syntax errors.
# Delay sourcing the "~/.octaverc" file in case it displays a pager.
cmd += ' --interactive --quiet --no-init-file '
# Add cli options provided by the user.
cmd += os.environ.get('OCTAVE_CLI_OPTIONS', self.cli_options)
orig_prompt = u('octave.*>')
change_prompt = u("PS1('{0}'); PS2('{1}')")
repl = REPLWrapper(cmd,
orig_prompt,
change_prompt,
stdin_prompt_regex=STDIN_PROMPT_REGEX,
force_prompt_on_continuation=True)
if os.name == 'nt':
repl.child.crlf = '\n'
repl.interrupt = self._interrupt
# Remove the default 50ms delay before sending lines.
repl.child.delaybeforesend = None
return repl
def makeWrapper(self):
"""
Start a math/mathics kernel and return a :class:`REPLWrapper` object.
"""
self.js_libraries_loaded = False
# Maybe we can consider as prompt P:, M: and
# Out[]:= to catch all signals in real time
orig_prompt = u('In\[.*\]:=')
prompt_cmd = None
change_prompt = None
self.check_wolfram()
if self.kernel_type == "mathics":
cmdline = self.language_info[
'exec'] + " --colors NOCOLOR --persist '" + self.initfilename + "'"
else:
cmdline = self.language_info[
'exec'] + " -rawterm -initfile '" + self.initfilename + "'"
# self.log.warning("Building the process wrapper...")
myspawner = spawnu(cmdline, errors="ignore", echo=False)
replwrapper = REPLWrapper(myspawner,
orig_prompt,
change_prompt,
prompt_emit_cmd=None,
echo=False)
#self.log.warning(" ... done")
return replwrapper
def makeWrapper(self):
"""
Start a math/mathics kernel and return a :class:`REPLWrapper` object.
"""
self.js_libraries_loaded = False
orig_prompt = u("In\[.*\]:=")
prompt_cmd = None
change_prompt = None
self.check_wolfram()
if self.kernel_type in ["wolfram"]:
print("Wolfram Kernel or compabible found")
self.process_response = self.process_response_wolfram
self.open_envel = 'ToExpression["Identity['
self.close_envel = ']"]'
cmdline = (
self.language_info["exec"]
+ " -rawterm -initfile '"
+ self.initfilename
+ "'"
)
if self.kernel_type in ["expreduce"]:
print("Expreduce found")
self.open_envel = ""
self.close_envel = ""
self.process_response = self.process_response_wolfram
self.do_execute_direct = self.do_execute_direct_expred
self.do_execute_direct_single_command = (
self.do_execute_direct_single_command_expred
)
cmdline = (
self.language_info["exec"]
+ " -rawterm -initfile '"
+ self.initfilename
+ "'"
)
elif self.kernel_type in ["mathics"]:
print("Mathics found")
self.process_response = self.process_response_mathics
self.open_envel = 'ToExpression["Identity['
self.close_envel = ']"]'
cmdline = (
self.language_info["exec"]
+ " --colors NOCOLOR --no-readline --persist '"
+ self.initfilename
+ "'"
)
self.myspawner = spawnu(cmdline, errors="ignore", echo=False)
replwrapper = REPLWrapper(
self.myspawner,
orig_prompt,
change_prompt,
continuation_prompt_regex="Interrupt>",
prompt_emit_cmd=None,
echo=False,
)
return replwrapper
def makeWrapper(self):
"""Start an PsySH process and return a :class:`REPLWrapper` object.
"""
executable = self.executable
wrapper = REPLWrapper(executable,
u('>>>'),
None,
continuation_prompt_regex=u('\.\.\.'),
echo=True)
wrapper.child.linesep = '\n'
return wrapper
def _create_repl(self):
cmd = self.executable
# Interactive mode prevents crashing on Windows on syntax errors.
# Delay sourcing the "~/.octaverc" file in case it displays a pager.
repl = REPLWrapper(cmd_or_spawn=cmd,
prompt_regex=r'[>+] $',
prompt_change_cmd=None)
if os.name == 'nt':
repl.child.crlf = '\n'
repl.interrupt = self._interrupt
# Remove the default 50ms delay before sending lines.
repl.child.delaybeforesend = None
return repl
def makeWrapper(self):
"""Start a Scilab process and return a :class:`REPLWrapper` object.
"""
orig_prompt = '-->'
prompt_cmd = None
change_prompt = None
continuation_prompt = ' >'
self._first = True
if os.name == 'nt':
prompt_cmd = 'printf("-->")'
echo = False
else:
echo = True
executable = self.executable + ' -nw'
wrapper = REPLWrapper(executable, orig_prompt, change_prompt,
prompt_emit_cmd=prompt_cmd, echo=echo,
continuation_prompt_regex=continuation_prompt)
wrapper.child.linesep = '\r\n' if os.name == 'nt' else '\n'
return wrapper
def makeWrapper(self):
"""
Start a math/mathics kernel and return a :class:`REPLWrapper` object.
"""
self.js_libraries_loaded = False
orig_prompt = u('In\[.*\]:=')
prompt_cmd = None
change_prompt = None
self.check_wolfram()
if self.kernel_type in ["wolfram"]:
self.process_response = self.process_response_wolfram
self.open_envel = "ToExpression[\"Identity["
self.close_envel = "]\"]"
cmdline = self.language_info['exec'] + " -rawterm -initfile '" + \
self.initfilename + "'"
if self.kernel_type in ["expreduce"]:
self.process_response = self.process_response_wolfram
self.do_execute_direct = self.do_execute_direct_expred
self.do_execute_direct_single_command = \
self.do_execute_direct_single_command_expred
cmdline = self.language_info['exec'] + \
" -rawterm -initfile '" + self.initfilename + "'"
elif self.kernel_type in ["mathics"]:
self.process_response = self.process_response_mathics
self.open_envel = "$PrePrint[ToExpression[\"Identity["
self.close_envel = "]\"]]"
cmdline = self.language_info['exec'] + \
" --colors NOCOLOR --persist '" + \
self.initfilename + "'"
self.myspawner = spawnu(cmdline, errors="ignore", echo=False)
replwrapper = REPLWrapper(self.myspawner,
orig_prompt,
change_prompt,
continuation_prompt_regex="Interrupt>",
prompt_emit_cmd=None,
echo=False)
return replwrapper
def makeWrapper(self):
"""Start a Scilab process and return a :class:`REPLWrapper` object.
"""
if os.name == 'nt':
orig_prompt = u(chr(3))
prompt_cmd = u('disp(char(3))')
change_prompt = None
else:
orig_prompt = u('-->')
prompt_cmd = None
change_prompt = None
self._first = True
executable = self.executable + ' -nw'
wrapper = REPLWrapper(executable,
orig_prompt,
change_prompt,
prompt_emit_cmd=prompt_cmd)
wrapper.child.linesep = '\n'
return wrapper
def makeWrapper(self):
"""Start an Octave process and return a :class:`REPLWrapper` object.
"""
if os.name == 'nt':
orig_prompt = u(chr(3))
prompt_cmd = u('disp(char(3))')
change_prompt = None
else:
orig_prompt = u('octave.*>')
prompt_cmd = None
change_prompt = u("PS1('{0}'); PS2('{1}')")
self._first = True
executable = self.executable
if 'version 4' in self.banner:
executable += ' --no-gui'
wrapper = REPLWrapper(executable, orig_prompt, change_prompt,
prompt_emit_cmd=prompt_cmd)
wrapper.child.linesep = '\n'
return wrapper
def makeWrapper(self):
"""Start a Scilab process and return a :class:`REPLWrapper` object.
"""
orig_prompt = '-->'
prompt_cmd = None
change_prompt = None
continuation_prompt = ' >'
self._first = True
if os.name == 'nt':
prompt_cmd = 'printf("-->")'
echo = False
else:
echo = True
executable = self.executable
with open(os.path.expanduser('~/test.log'), 'w') as fid:
fid.write('executable: ' + executable)
wrapper = REPLWrapper(executable,
orig_prompt,
change_prompt,
prompt_emit_cmd=prompt_cmd,
echo=echo,
continuation_prompt_regex=continuation_prompt)
wrapper.child.linesep = '\r\n' if os.name == 'nt' else '\n'
return wrapper
# works with ``#define RB_XCODE``, i.e. no linenoise
# cmd = '/usr/local/bin/rb'
# possibly broken with the vanilla cmake version
#cmd = '/usr/local/bin/revbayes'
# problem appears to be fixed when building with cmake with `-DRB_XCODE`
# use ./build.sh -jupyter true to build the rb-jupyter binary
cmd = '/usr/local/bin/rb-jupyter'
#prompt_regex = r'[(x1b\[0K\\r\\x1b\[2C)>+] '
prompt_regex = r'[>+] '
x = REPLWrapper(cmd_or_spawn=cmd,
prompt_regex=prompt_regex,
prompt_change_cmd=None,
echo=True)
# RevBayes uses u'\n\r' as CRLF
# x.child.crlf = '\n'
#x.run_command('val <- [1,')
#x.run_command('2]')
#x.run_command('for (i in 1:10) {'
#x.run_command('val')
#print(x.run_command('for (i in 1:10) z[i] ~ dnNormal(0,1)'))
#print(x.run_command('z'))
print(x.run_command('for (i in 1:10) {'))