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Merging 'master' into 'wrap'

release/4.3a0
Varun Agrawal 2023-05-22 15:25:54 -04:00
parent 9eb9770a43 6976cd6ea2
commit 8d2b7cd0cf
15 changed files with 508 additions and 35 deletions
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6
wrap/.github/workflows/linux-ci.yml vendored
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@ -5,12 +5,12 @@ on: [pull_request]
jobs:
build:
name: Tests for 🐍 ${{ matrix.python-version }}
runs-on: ubuntu-18.04
runs-on: ubuntu-22.04
strategy:
fail-fast: false
matrix:
python-version: [3.6, 3.7, 3.8, 3.9]
python-version: ["3.7", "3.8", "3.9", "3.10"]
steps:
- name: Checkout
@ -19,7 +19,7 @@ jobs:
- name: Install Dependencies
run: |
sudo apt-get -y update
sudo apt install cmake build-essential pkg-config libpython-dev python-numpy libboost-all-dev
sudo apt install cmake build-essential pkg-config libpython3-dev python3-numpy libboost-all-dev
- name: Set up Python ${{ matrix.python-version }}
uses: actions/setup-python@v2

4
wrap/.github/workflows/macos-ci.yml vendored
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@ -5,12 +5,12 @@ on: [pull_request]
jobs:
build:
name: Tests for 🐍 ${{ matrix.python-version }}
runs-on: macos-10.15
runs-on: macos-12
strategy:
fail-fast: false
matrix:
python-version: [3.6, 3.7, 3.8, 3.9]
python-version: ["3.7", "3.8", "3.9", "3.10"]
steps:
- name: Checkout

5
wrap/gtwrap/matlab_wrapper/mixins.py
View File

@ -60,6 +60,11 @@ class CheckMixin:
arg_type.typename.name not in self.not_ptr_type and \
arg_type.is_ref
def is_class_enum(self, arg_type: parser.Type, class_: parser.Class):
"""Check if `arg_type` is an enum in the class `class_`."""
enums = (enum.name for enum in class_.enums)
return arg_type.ctype.typename.name in enums
class FormatMixin:
"""Mixin to provide formatting utilities."""

2
wrap/gtwrap/matlab_wrapper/templates.py
View File

@ -1,3 +1,5 @@
"""Code generation templates for the Matlab wrapper."""
import textwrap

148
wrap/gtwrap/matlab_wrapper/wrapper.py
View File

@ -341,11 +341,26 @@ class MatlabWrapper(CheckMixin, FormatMixin):
return check_statement
def _unwrap_argument(self, arg, arg_id=0, constructor=False):
def _unwrap_argument(self,
arg,
arg_id=0,
constructor=False,
instantiated_class=None):
ctype_camel = self._format_type_name(arg.ctype.typename, separator='')
ctype_sep = self._format_type_name(arg.ctype.typename)
if self.is_ref(arg.ctype): # and not constructor:
if instantiated_class and \
self.is_class_enum(arg, instantiated_class):
if instantiated_class.original.template:
enum_type = f"{arg.ctype.typename}"
else:
enum_type = f"{instantiated_class.name}::{arg.ctype}"
arg_type = f"std::shared_ptr<{enum_type}>"
unwrap = f'unwrap_enum<{enum_type}>(in[{arg_id}]);'
elif self.is_ref(arg.ctype): # and not constructor:
arg_type = "{ctype}&".format(ctype=ctype_sep)
unwrap = '*unwrap_shared_ptr< {ctype} >(in[{id}], "ptr_{ctype_camel}");'.format(
ctype=ctype_sep, ctype_camel=ctype_camel, id=arg_id)
@ -372,7 +387,11 @@ class MatlabWrapper(CheckMixin, FormatMixin):
return arg_type, unwrap
def _wrapper_unwrap_arguments(self, args, arg_id=0, constructor=False):
def _wrapper_unwrap_arguments(self,
args,
arg_id=0,
constructor=False,
instantiated_class=None):
"""Format the interface_parser.Arguments.
Examples:
@ -383,7 +402,11 @@ class MatlabWrapper(CheckMixin, FormatMixin):
body_args = ''
for arg in args.list():
arg_type, unwrap = self._unwrap_argument(arg, arg_id, constructor)
arg_type, unwrap = self._unwrap_argument(
arg,
arg_id,
constructor,
instantiated_class=instantiated_class)
body_args += textwrap.indent(textwrap.dedent('''\
{arg_type} {name} = {unwrap}
@ -535,7 +558,7 @@ class MatlabWrapper(CheckMixin, FormatMixin):
def wrap_methods(self, methods, global_funcs=False, global_ns=None):
"""
Wrap a sequence of methods. Groups methods with the same names
Wrap a sequence of methods/functions. Groups methods with the same names
together.
If global_funcs is True then output every method into its own file.
"""
@ -1027,7 +1050,7 @@ class MatlabWrapper(CheckMixin, FormatMixin):
if uninstantiated_name in self.ignore_classes:
return None
# Class comment
# Class docstring/comment
content_text = self.class_comment(instantiated_class)
content_text += self.wrap_methods(instantiated_class.methods)
@ -1108,31 +1131,73 @@ class MatlabWrapper(CheckMixin, FormatMixin):
end
''')
# Enums
# Place enums into the correct submodule so we can access them
# e.g. gtsam.Class.Enum.A
for enum in instantiated_class.enums:
enum_text = self.wrap_enum(enum)
if namespace_name != '':
submodule = f"+{namespace_name}/"
else:
submodule = ""
submodule += f"+{instantiated_class.name}"
self.content.append((submodule, [enum_text]))
return file_name + '.m', content_text
def wrap_namespace(self, namespace):
def wrap_enum(self, enum):
"""
Wrap an enum definition.
Args:
enum: The interface_parser.Enum instance
"""
file_name = enum.name + '.m'
enum_template = textwrap.dedent("""\
classdef {0} < uint32
enumeration
{1}
end
end
""")
enumerators = "\n ".join([
f"{enumerator.name}({idx})"
for idx, enumerator in enumerate(enum.enumerators)
])
content = enum_template.format(enum.name, enumerators)
return file_name, content
def wrap_namespace(self, namespace, add_mex_file=True):
"""Wrap a namespace by wrapping all of its components.
Args:
namespace: the interface_parser.namespace instance of the namespace
parent: parent namespace
add_cpp_file: Flag indicating whether the mex file should be added
"""
namespaces = namespace.full_namespaces()
inner_namespace = namespace.name != ''
wrapped = []
cpp_filename = self._wrapper_name() + '.cpp'
self.content.append((cpp_filename, self.wrapper_file_headers))
current_scope = []
namespace_scope = []
top_level_scope = []
inner_namespace_scope = []
for element in namespace.content:
if isinstance(element, parser.Include):
self.includes.append(element)
elif isinstance(element, parser.Namespace):
self.wrap_namespace(element)
self.wrap_namespace(element, False)
elif isinstance(element, parser.Enum):
file, content = self.wrap_enum(element)
if inner_namespace:
module = "".join([
'+' + x + '/' for x in namespace.full_namespaces()[1:]
])[:-1]
inner_namespace_scope.append((module, [(file, content)]))
else:
top_level_scope.append((file, content))
elif isinstance(element, instantiator.InstantiatedClass):
self.add_class(element)
@ -1142,18 +1207,22 @@ class MatlabWrapper(CheckMixin, FormatMixin):
element, "".join(namespace.full_namespaces()))
if not class_text is None:
namespace_scope.append(("".join([
inner_namespace_scope.append(("".join([
'+' + x + '/'
for x in namespace.full_namespaces()[1:]
])[:-1], [(class_text[0], class_text[1])]))
else:
class_text = self.wrap_instantiated_class(element)
current_scope.append((class_text[0], class_text[1]))
top_level_scope.append((class_text[0], class_text[1]))
self.content.extend(current_scope)
self.content.extend(top_level_scope)
if inner_namespace:
self.content.append(namespace_scope)
self.content.append(inner_namespace_scope)
if add_mex_file:
cpp_filename = self._wrapper_name() + '.cpp'
self.content.append((cpp_filename, self.wrapper_file_headers))
# Global functions
all_funcs = [
@ -1213,10 +1282,22 @@ class MatlabWrapper(CheckMixin, FormatMixin):
return return_type_text
def _collector_return(self, obj: str, ctype: parser.Type):
def _collector_return(self,
obj: str,
ctype: parser.Type,
class_property: parser.Variable = None,
instantiated_class: InstantiatedClass = None):
"""Helper method to get the final statement before the return in the collector function."""
expanded = ''
if self.is_shared_ptr(ctype) or self.is_ptr(ctype) or \
if class_property and instantiated_class and \
self.is_class_enum(class_property, instantiated_class):
class_name = ".".join(instantiated_class.namespaces()[1:] + [instantiated_class.name])
enum_type = f"{class_name}.{ctype.typename.name}"
expanded = textwrap.indent(
f'out[0] = wrap_enum({obj},\"{enum_type}\");', prefix=' ')
elif self.is_shared_ptr(ctype) or self.is_ptr(ctype) or \
self.can_be_pointer(ctype):
sep_method_name = partial(self._format_type_name,
ctype.typename,
@ -1316,13 +1397,19 @@ class MatlabWrapper(CheckMixin, FormatMixin):
return expanded
def wrap_collector_property_return(self, class_property: parser.Variable):
def wrap_collector_property_return(
self,
class_property: parser.Variable,
instantiated_class: InstantiatedClass = None):
"""Get the last collector function statement before return for a property."""
property_name = class_property.name
obj = 'obj->{}'.format(property_name)
property_type = class_property.ctype
return self._collector_return(obj, property_type)
ctype = class_property.ctype
return self._collector_return(obj,
ctype,
class_property=class_property,
instantiated_class=instantiated_class)
def wrap_collector_function_upcast_from_void(self, class_name, func_id,
cpp_name):
@ -1381,7 +1468,9 @@ class MatlabWrapper(CheckMixin, FormatMixin):
elif collector_func[2] == 'constructor':
base = ''
params, body_args = self._wrapper_unwrap_arguments(
extra.args, constructor=True)
extra.args,
constructor=True,
instantiated_class=collector_func[1])
if collector_func[1].parent_class:
base += textwrap.indent(textwrap.dedent('''
@ -1442,7 +1531,9 @@ class MatlabWrapper(CheckMixin, FormatMixin):
method_name += extra.name
_, body_args = self._wrapper_unwrap_arguments(
extra.args, arg_id=1 if is_method else 0)
extra.args,
arg_id=1 if is_method else 0,
instantiated_class=collector_func[1])
return_body = self.wrap_collector_function_return(extra)
shared_obj = ''
@ -1472,7 +1563,8 @@ class MatlabWrapper(CheckMixin, FormatMixin):
class_name=class_name)
# Unpack the property from mxArray
property_type, unwrap = self._unwrap_argument(extra, arg_id=1)
property_type, unwrap = self._unwrap_argument(
extra, arg_id=1, instantiated_class=collector_func[1])
unpack_property = textwrap.indent(textwrap.dedent('''\
{arg_type} {name} = {unwrap}
'''.format(arg_type=property_type,
@ -1482,7 +1574,8 @@ class MatlabWrapper(CheckMixin, FormatMixin):
# Getter
if "_get_" in method_name:
return_body = self.wrap_collector_property_return(extra)
return_body = self.wrap_collector_property_return(
extra, instantiated_class=collector_func[1])
getter = ' checkArguments("{property_name}",nargout,nargin{min1},' \
'{num_args});\n' \
@ -1837,3 +1930,4 @@ class MatlabWrapper(CheckMixin, FormatMixin):
self.generate_content(self.content, path)
return self.content

32
wrap/matlab.h
View File

@ -228,8 +228,22 @@ mxArray* wrap<gtsam::Matrix >(const gtsam::Matrix& A) {
return wrap_Matrix(A);
}
template <typename T>
mxArray* wrap_enum(const T x, const std::string& classname) {
// create double array to store value in
mxArray* a = mxCreateDoubleMatrix(1, 1, mxREAL);
double* data = mxGetPr(a);
data[0] = static_cast<double>(x);
// convert to Matlab enumeration type
mxArray* result;
mexCallMATLAB(1, &result, 1, &a, classname.c_str());
return result;
}
//*****************************************************************************
// unwrapping MATLAB arrays into C++ basis types
// unwrapping MATLAB arrays into C++ basic types
//*****************************************************************************
// default unwrapping throws an error
@ -240,6 +254,22 @@ T unwrap(const mxArray* array) {
return T();
}
template <typename T>
shared_ptr<T> unwrap_enum(const mxArray* array) {
// Make duplicate to remove const-ness
mxArray* a = mxDuplicateArray(array);
std::cout << "unwrap enum type: " << typeid(array).name() << std::endl;
// convert void* to int32* array
mxArray* a_int32;
mexCallMATLAB(1, &a_int32, 1, &a, "int32");
// Get the value in the input array
int32_T* value = (int32_T*)mxGetData(a_int32);
// cast int32 to enum type
return std::make_shared<T>(static_cast<T>(*value));
}
// specialization to string
// expects a character array
// Warning: relies on mxChar==char

6
wrap/tests/expected/matlab/+Pet/Kind.m Normal file
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@ -0,0 +1,6 @@
classdef Kind < uint32
enumeration
Dog(0)
Cat(1)
end
end

9
wrap/tests/expected/matlab/+gtsam/+MCU/Avengers.m Normal file
View File

@ -0,0 +1,9 @@
classdef Avengers < uint32
enumeration
CaptainAmerica(0)
IronMan(1)
Hulk(2)
Hawkeye(3)
Thor(4)
end
end

9
wrap/tests/expected/matlab/+gtsam/+MCU/GotG.m Normal file
View File

@ -0,0 +1,9 @@
classdef GotG < uint32
enumeration
Starlord(0)
Gamorra(1)
Rocket(2)
Drax(3)
Groot(4)
end
end

7
wrap/tests/expected/matlab/+gtsam/+OptimizerGaussNewtonParams/Verbosity.m Normal file
View File

@ -0,0 +1,7 @@
classdef Verbosity < uint32
enumeration
SILENT(0)
SUMMARY(1)
VERBOSE(2)
end
end

12
wrap/tests/expected/matlab/+gtsam/VerbosityLM.m Normal file
View File

@ -0,0 +1,12 @@
classdef VerbosityLM < uint32
enumeration
SILENT(0)
SUMMARY(1)
TERMINATION(2)
LAMBDA(3)
TRYLAMBDA(4)
TRYCONFIG(5)
DAMPED(6)
TRYDELTA(7)
end
end

7
wrap/tests/expected/matlab/Color.m Normal file
View File

@ -0,0 +1,7 @@
classdef Color < uint32
enumeration
Red(0)
Green(1)
Blue(2)
end
end

266
wrap/tests/expected/matlab/enum_wrapper.cpp Normal file
View File

@ -0,0 +1,266 @@
#include <gtwrap/matlab.h>
#include <map>
typedef gtsam::Optimizer<gtsam::GaussNewtonParams> OptimizerGaussNewtonParams;
typedef std::set<std::shared_ptr<Pet>*> Collector_Pet;
static Collector_Pet collector_Pet;
typedef std::set<std::shared_ptr<gtsam::MCU>*> Collector_gtsamMCU;
static Collector_gtsamMCU collector_gtsamMCU;
typedef std::set<std::shared_ptr<OptimizerGaussNewtonParams>*> Collector_gtsamOptimizerGaussNewtonParams;
static Collector_gtsamOptimizerGaussNewtonParams collector_gtsamOptimizerGaussNewtonParams;
void _deleteAllObjects()
{
mstream mout;
std::streambuf *outbuf = std::cout.rdbuf(&mout);
bool anyDeleted = false;
{ for(Collector_Pet::iterator iter = collector_Pet.begin();
iter != collector_Pet.end(); ) {
delete *iter;
collector_Pet.erase(iter++);
anyDeleted = true;
} }
{ for(Collector_gtsamMCU::iterator iter = collector_gtsamMCU.begin();
iter != collector_gtsamMCU.end(); ) {
delete *iter;
collector_gtsamMCU.erase(iter++);
anyDeleted = true;
} }
{ for(Collector_gtsamOptimizerGaussNewtonParams::iterator iter = collector_gtsamOptimizerGaussNewtonParams.begin();
iter != collector_gtsamOptimizerGaussNewtonParams.end(); ) {
delete *iter;
collector_gtsamOptimizerGaussNewtonParams.erase(iter++);
anyDeleted = true;
} }
if(anyDeleted)
cout <<
"WARNING: Wrap modules with variables in the workspace have been reloaded due to\n"
"calling destructors, call 'clear all' again if you plan to now recompile a wrap\n"
"module, so that your recompiled module is used instead of the old one." << endl;
std::cout.rdbuf(outbuf);
}
void _enum_RTTIRegister() {
const mxArray *alreadyCreated = mexGetVariablePtr("global", "gtsam_enum_rttiRegistry_created");
if(!alreadyCreated) {
std::map<std::string, std::string> types;
mxArray *registry = mexGetVariable("global", "gtsamwrap_rttiRegistry");
if(!registry)
registry = mxCreateStructMatrix(1, 1, 0, NULL);
typedef std::pair<std::string, std::string> StringPair;
for(const StringPair& rtti_matlab: types) {
int fieldId = mxAddField(registry, rtti_matlab.first.c_str());
if(fieldId < 0) {
mexErrMsgTxt("gtsam wrap: Error indexing RTTI types, inheritance will not work correctly");
}
mxArray *matlabName = mxCreateString(rtti_matlab.second.c_str());
mxSetFieldByNumber(registry, 0, fieldId, matlabName);
}
if(mexPutVariable("global", "gtsamwrap_rttiRegistry", registry) != 0) {
mexErrMsgTxt("gtsam wrap: Error indexing RTTI types, inheritance will not work correctly");
}
mxDestroyArray(registry);
mxArray *newAlreadyCreated = mxCreateNumericMatrix(0, 0, mxINT8_CLASS, mxREAL);
if(mexPutVariable("global", "gtsam_enum_rttiRegistry_created", newAlreadyCreated) != 0) {
mexErrMsgTxt("gtsam wrap: Error indexing RTTI types, inheritance will not work correctly");
}
mxDestroyArray(newAlreadyCreated);
}
}
void Pet_collectorInsertAndMakeBase_0(int nargout, mxArray *out[], int nargin, const mxArray *in[])
{
mexAtExit(&_deleteAllObjects);
typedef std::shared_ptr<Pet> Shared;
Shared *self = *reinterpret_cast<Shared**> (mxGetData(in[0]));
collector_Pet.insert(self);
}
void Pet_constructor_1(int nargout, mxArray *out[], int nargin, const mxArray *in[])
{
mexAtExit(&_deleteAllObjects);
typedef std::shared_ptr<Pet> Shared;
string& name = *unwrap_shared_ptr< string >(in[0], "ptr_string");
std::shared_ptr<Pet::Kind> type = unwrap_enum<Pet::Kind>(in[1]);
Shared *self = new Shared(new Pet(name,*type));
collector_Pet.insert(self);
out[0] = mxCreateNumericMatrix(1, 1, mxUINT32OR64_CLASS, mxREAL);
*reinterpret_cast<Shared**> (mxGetData(out[0])) = self;
}
void Pet_deconstructor_2(int nargout, mxArray *out[], int nargin, const mxArray *in[])
{
typedef std::shared_ptr<Pet> Shared;
checkArguments("delete_Pet",nargout,nargin,1);
Shared *self = *reinterpret_cast<Shared**>(mxGetData(in[0]));
Collector_Pet::iterator item;
item = collector_Pet.find(self);
if(item != collector_Pet.end()) {
collector_Pet.erase(item);
}
delete self;
}
void Pet_get_name_3(int nargout, mxArray *out[], int nargin, const mxArray *in[])
{
checkArguments("name",nargout,nargin-1,0);
auto obj = unwrap_shared_ptr<Pet>(in[0], "ptr_Pet");
out[0] = wrap< string >(obj->name);
}
void Pet_set_name_4(int nargout, mxArray *out[], int nargin, const mxArray *in[])
{
checkArguments("name",nargout,nargin-1,1);
auto obj = unwrap_shared_ptr<Pet>(in[0], "ptr_Pet");
string name = unwrap< string >(in[1]);
obj->name = name;
}
void Pet_get_type_5(int nargout, mxArray *out[], int nargin, const mxArray *in[])
{
checkArguments("type",nargout,nargin-1,0);
auto obj = unwrap_shared_ptr<Pet>(in[0], "ptr_Pet");
out[0] = wrap_enum(obj->type,"Pet.Kind");
}
void Pet_set_type_6(int nargout, mxArray *out[], int nargin, const mxArray *in[])
{
checkArguments("type",nargout,nargin-1,1);
auto obj = unwrap_shared_ptr<Pet>(in[0], "ptr_Pet");
std::shared_ptr<Pet::Kind> type = unwrap_enum<Pet::Kind>(in[1]);
obj->type = *type;
}
void gtsamMCU_collectorInsertAndMakeBase_7(int nargout, mxArray *out[], int nargin, const mxArray *in[])
{
mexAtExit(&_deleteAllObjects);
typedef std::shared_ptr<gtsam::MCU> Shared;
Shared *self = *reinterpret_cast<Shared**> (mxGetData(in[0]));
collector_gtsamMCU.insert(self);
}
void gtsamMCU_constructor_8(int nargout, mxArray *out[], int nargin, const mxArray *in[])
{
mexAtExit(&_deleteAllObjects);
typedef std::shared_ptr<gtsam::MCU> Shared;
Shared *self = new Shared(new gtsam::MCU());
collector_gtsamMCU.insert(self);
out[0] = mxCreateNumericMatrix(1, 1, mxUINT32OR64_CLASS, mxREAL);
*reinterpret_cast<Shared**> (mxGetData(out[0])) = self;
}
void gtsamMCU_deconstructor_9(int nargout, mxArray *out[], int nargin, const mxArray *in[])
{
typedef std::shared_ptr<gtsam::MCU> Shared;
checkArguments("delete_gtsamMCU",nargout,nargin,1);
Shared *self = *reinterpret_cast<Shared**>(mxGetData(in[0]));
Collector_gtsamMCU::iterator item;
item = collector_gtsamMCU.find(self);
if(item != collector_gtsamMCU.end()) {
collector_gtsamMCU.erase(item);
}
delete self;
}
void gtsamOptimizerGaussNewtonParams_collectorInsertAndMakeBase_10(int nargout, mxArray *out[], int nargin, const mxArray *in[])
{
mexAtExit(&_deleteAllObjects);
typedef std::shared_ptr<gtsam::Optimizer<gtsam::GaussNewtonParams>> Shared;
Shared *self = *reinterpret_cast<Shared**> (mxGetData(in[0]));
collector_gtsamOptimizerGaussNewtonParams.insert(self);
}
void gtsamOptimizerGaussNewtonParams_deconstructor_11(int nargout, mxArray *out[], int nargin, const mxArray *in[])
{
typedef std::shared_ptr<gtsam::Optimizer<gtsam::GaussNewtonParams>> Shared;
checkArguments("delete_gtsamOptimizerGaussNewtonParams",nargout,nargin,1);
Shared *self = *reinterpret_cast<Shared**>(mxGetData(in[0]));
Collector_gtsamOptimizerGaussNewtonParams::iterator item;
item = collector_gtsamOptimizerGaussNewtonParams.find(self);
if(item != collector_gtsamOptimizerGaussNewtonParams.end()) {
collector_gtsamOptimizerGaussNewtonParams.erase(item);
}
delete self;
}
void gtsamOptimizerGaussNewtonParams_setVerbosity_12(int nargout, mxArray *out[], int nargin, const mxArray *in[])
{
checkArguments("setVerbosity",nargout,nargin-1,1);
auto obj = unwrap_shared_ptr<gtsam::Optimizer<gtsam::GaussNewtonParams>>(in[0], "ptr_gtsamOptimizerGaussNewtonParams");
std::shared_ptr<Optimizer<gtsam::GaussNewtonParams>::Verbosity> value = unwrap_enum<Optimizer<gtsam::GaussNewtonParams>::Verbosity>(in[1]);
obj->setVerbosity(*value);
}
void mexFunction(int nargout, mxArray *out[], int nargin, const mxArray *in[])
{
mstream mout;
std::streambuf *outbuf = std::cout.rdbuf(&mout);
_enum_RTTIRegister();
int id = unwrap<int>(in[0]);
try {
switch(id) {
case 0:
Pet_collectorInsertAndMakeBase_0(nargout, out, nargin-1, in+1);
break;
case 1:
Pet_constructor_1(nargout, out, nargin-1, in+1);
break;
case 2:
Pet_deconstructor_2(nargout, out, nargin-1, in+1);
break;
case 3:
Pet_get_name_3(nargout, out, nargin-1, in+1);
break;
case 4:
Pet_set_name_4(nargout, out, nargin-1, in+1);
break;
case 5:
Pet_get_type_5(nargout, out, nargin-1, in+1);
break;
case 6:
Pet_set_type_6(nargout, out, nargin-1, in+1);
break;
case 7:
gtsamMCU_collectorInsertAndMakeBase_7(nargout, out, nargin-1, in+1);
break;
case 8:
gtsamMCU_constructor_8(nargout, out, nargin-1, in+1);
break;
case 9:
gtsamMCU_deconstructor_9(nargout, out, nargin-1, in+1);
break;
case 10:
gtsamOptimizerGaussNewtonParams_collectorInsertAndMakeBase_10(nargout, out, nargin-1, in+1);
break;
case 11:
gtsamOptimizerGaussNewtonParams_deconstructor_11(nargout, out, nargin-1, in+1);
break;
case 12:
gtsamOptimizerGaussNewtonParams_setVerbosity_12(nargout, out, nargin-1, in+1);
break;
}
} catch(const std::exception& e) {
mexErrMsgTxt(("Exception from gtsam:\n" + std::string(e.what()) + "\n").c_str());
}
std::cout.rdbuf(outbuf);
}

4
wrap/tests/expected/matlab/special_cases_wrapper.cpp
View File

@ -204,14 +204,14 @@ void gtsamGeneralSFMFactorCal3Bundler_get_verbosity_11(int nargout, mxArray *out
{
checkArguments("verbosity",nargout,nargin-1,0);
auto obj = unwrap_shared_ptr<gtsam::GeneralSFMFactor<gtsam::PinholeCamera<gtsam::Cal3Bundler>, gtsam::Point3>>(in[0], "ptr_gtsamGeneralSFMFactorCal3Bundler");
out[0] = wrap_shared_ptr(std::make_shared<gtsam::GeneralSFMFactor<gtsam::PinholeCamera<gtsam::Cal3Bundler>, gtsam::Point3>::Verbosity>(obj->verbosity),"gtsam.GeneralSFMFactor<gtsam::PinholeCamera<gtsam::Cal3Bundler>, gtsam::Point3>.Verbosity", false);
out[0] = wrap_enum(obj->verbosity,"gtsam.GeneralSFMFactorCal3Bundler.Verbosity");
}
void gtsamGeneralSFMFactorCal3Bundler_set_verbosity_12(int nargout, mxArray *out[], int nargin, const mxArray *in[])
{
checkArguments("verbosity",nargout,nargin-1,1);
auto obj = unwrap_shared_ptr<gtsam::GeneralSFMFactor<gtsam::PinholeCamera<gtsam::Cal3Bundler>, gtsam::Point3>>(in[0], "ptr_gtsamGeneralSFMFactorCal3Bundler");
std::shared_ptr<gtsam::GeneralSFMFactor<gtsam::PinholeCamera<gtsam::Cal3Bundler>, gtsam::Point3>::Verbosity> verbosity = unwrap_shared_ptr< gtsam::GeneralSFMFactor<gtsam::PinholeCamera<gtsam::Cal3Bundler>, gtsam::Point3>::Verbosity >(in[1], "ptr_gtsamGeneralSFMFactor<gtsam::PinholeCamera<gtsam::Cal3Bundler>, gtsam::Point3>Verbosity");
std::shared_ptr<gtsam::GeneralSFMFactor<gtsam::PinholeCamera<gtsam::Cal3Bundler>, gtsam::Point3>::Verbosity> verbosity = unwrap_enum<gtsam::GeneralSFMFactor<gtsam::PinholeCamera<gtsam::Cal3Bundler>, gtsam::Point3>::Verbosity>(in[1]);
obj->verbosity = *verbosity;
}

26
wrap/tests/test_matlab_wrapper.py
View File

@ -141,6 +141,32 @@ class TestWrap(unittest.TestCase):
actual = osp.join(self.MATLAB_ACTUAL_DIR, file)
self.compare_and_diff(file, actual)
def test_enum(self):
"""Test interface file with only enum info."""
file = osp.join(self.INTERFACE_DIR, 'enum.i')
wrapper = MatlabWrapper(
module_name='enum',
top_module_namespace=['gtsam'],
ignore_classes=[''],
)
wrapper.wrap([file], path=self.MATLAB_ACTUAL_DIR)
files = [
'enum_wrapper.cpp',
'Color.m',
'+Pet/Kind.m',
'+gtsam/VerbosityLM.m',
'+gtsam/+MCU/Avengers.m',
'+gtsam/+MCU/GotG.m',
'+gtsam/+OptimizerGaussNewtonParams/Verbosity.m',
]
for file in files:
actual = osp.join(self.MATLAB_ACTUAL_DIR, file)
self.compare_and_diff(file, actual)
def test_templates(self):
"""Test interface file with template info."""
file = osp.join(self.INTERFACE_DIR, 'templates.i')