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Merge

release/4.3a0
Jeremy Aguilon 2019-02-28 17:04:58 -05:00
parent 2eee111960 034f69c7aa
commit 28f543a4ca
20 changed files with 185 additions and 1004 deletions
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68
CMakeLists.txt
View File

@ -121,15 +121,19 @@ if(MSVC)
# If we use Boost shared libs, disable auto linking.
# Some libraries, at least Boost Program Options, rely on this to export DLL symbols.
if(NOT Boost_USE_STATIC_LIBS)
list(APPEND GTSAM_COMPILE_DEFINITIONS BOOST_ALL_NO_LIB BOOST_ALL_DYN_LINK)
list(APPEND GTSAM_COMPILE_DEFINITIONS_PUBLIC BOOST_ALL_NO_LIB BOOST_ALL_DYN_LINK)
endif()
# Virtual memory range for PCH exceeded on VS2015
if(MSVC_VERSION LESS 1910) # older than VS2017
list(APPEND GTSAM_COMPILE_OPTIONS -Zm295)
list(APPEND GTSAM_COMPILE_OPTIONS_PRIVATE -Zm295)
endif()
endif()
find_package(Boost 1.43 COMPONENTS serialization system filesystem thread program_options date_time timer chrono regex)
# Store these in variables so they are automatically replicated in GTSAMConfig.cmake and such.
set(BOOST_FIND_MINIMUM_VERSION 1.43)
set(BOOST_FIND_MINIMUM_COMPONENTS serialization system filesystem thread program_options date_time timer chrono regex)
find_package(Boost ${BOOST_FIND_MINIMUM_VERSION} COMPONENTS ${BOOST_FIND_MINIMUM_COMPONENTS})
# Required components
if(NOT Boost_SERIALIZATION_LIBRARY OR NOT Boost_SYSTEM_LIBRARY OR NOT Boost_FILESYSTEM_LIBRARY OR
@ -149,7 +153,7 @@ set(GTSAM_BOOST_LIBRARIES
)
if (GTSAM_DISABLE_NEW_TIMERS)
message("WARNING: GTSAM timing instrumentation manually disabled")
list(APPEND GTSAM_COMPILE_DEFINITIONS DGTSAM_DISABLE_NEW_TIMERS)
list(APPEND GTSAM_COMPILE_DEFINITIONS_PUBLIC DGTSAM_DISABLE_NEW_TIMERS)
else()
if(Boost_TIMER_LIBRARY)
list(APPEND GTSAM_BOOST_LIBRARIES Boost::timer Boost::chrono)
@ -162,7 +166,7 @@ endif()
if(NOT (${Boost_VERSION} LESS 105600))
message("Ignoring Boost restriction on optional lvalue assignment from rvalues")
list(APPEND GTSAM_COMPILE_DEFINITIONS BOOST_OPTIONAL_ALLOW_BINDING_TO_RVALUES BOOST_OPTIONAL_CONFIG_ALLOW_BINDING_TO_RVALUES)
list(APPEND GTSAM_COMPILE_DEFINITIONS_PUBLIC BOOST_OPTIONAL_ALLOW_BINDING_TO_RVALUES BOOST_OPTIONAL_CONFIG_ALLOW_BINDING_TO_RVALUES)
endif()
###############################################################################
@ -212,7 +216,6 @@ find_package(MKL)
if(MKL_FOUND AND GTSAM_WITH_EIGEN_MKL)
set(GTSAM_USE_EIGEN_MKL 1) # This will go into config.h
set(EIGEN_USE_MKL_ALL 1) # This will go into config.h - it makes Eigen use MKL
include_directories(${MKL_INCLUDE_DIR})
list(APPEND GTSAM_ADDITIONAL_LIBRARIES ${MKL_LIBRARIES})
# --no-as-needed is required with gcc according to the MKL link advisor
@ -247,10 +250,9 @@ option(GTSAM_USE_SYSTEM_EIGEN "Find and use system-installed Eigen. If 'off', us
# Switch for using system Eigen or GTSAM-bundled Eigen
if(GTSAM_USE_SYSTEM_EIGEN)
find_package(Eigen3 REQUIRED)
include_directories(AFTER "${EIGEN3_INCLUDE_DIR}")
# Use generic Eigen include paths e.g. <Eigen/Core>
set(GTSAM_EIGEN_INCLUDE_PREFIX "${EIGEN3_INCLUDE_DIR}")
set(GTSAM_EIGEN_INCLUDE_FOR_INSTALL "${EIGEN3_INCLUDE_DIR}")
# check if MKL is also enabled - can have one or the other, but not both!
# Note: Eigen >= v3.2.5 includes our patches
@ -264,28 +266,29 @@ if(GTSAM_USE_SYSTEM_EIGEN)
message(FATAL_ERROR "MKL does not work with Eigen 3.3.4 because of a bug in Eigen. See http://eigen.tuxfamily.org/bz/show_bug.cgi?id=1527. Disable GTSAM_USE_SYSTEM_EIGEN to use GTSAM's copy of Eigen, disable GTSAM_WITH_EIGEN_MKL, or upgrade/patch your installation of Eigen.")
endif()
# The actual include directory (for BUILD cmake target interface):
set(GTSAM_EIGEN_INCLUDE_FOR_BUILD "${EIGEN3_INCLUDE_DIR}")
else()
# Use bundled Eigen include path.
# Clear any variables set by FindEigen3
if(EIGEN3_INCLUDE_DIR)
set(EIGEN3_INCLUDE_DIR NOTFOUND CACHE STRING "" FORCE)
endif()
# Add the bundled version of eigen to the include path so that it can still be included
# with #include <Eigen/Core>
include_directories(BEFORE "gtsam/3rdparty/Eigen/")
# set full path to be used by external projects
# this will be added to GTSAM_INCLUDE_DIR by gtsam_extra.cmake.in
set(GTSAM_EIGEN_INCLUDE_PREFIX "${CMAKE_INSTALL_PREFIX}/include/gtsam/3rdparty/Eigen/")
set(GTSAM_EIGEN_INCLUDE_FOR_INSTALL "include/gtsam/3rdparty/Eigen/")
# The actual include directory (for BUILD cmake target interface):
set(GTSAM_EIGEN_INCLUDE_FOR_BUILD "${CMAKE_SOURCE_DIR}/gtsam/3rdparty/Eigen/")
endif()
if (MSVC)
if (BUILD_SHARED_LIBS)
# mute eigen static assert to avoid errors in shared lib
list(APPEND GTSAM_COMPILE_DEFINITIONS DEIGEN_NO_STATIC_ASSERT)
list(APPEND GTSAM_COMPILE_DEFINITIONS_PUBLIC DEIGEN_NO_STATIC_ASSERT)
endif()
list(APPEND GTSAM_COMPILE_OPTIONS "/wd4244") # Disable loss of precision which is thrown all over our Eigen
list(APPEND GTSAM_COMPILE_OPTIONS_PRIVATE "/wd4244") # Disable loss of precision which is thrown all over our Eigen
endif()
###############################################################################
@ -326,52 +329,29 @@ elseif("${GTSAM_DEFAULT_ALLOCATOR}" STREQUAL "tcmalloc")
list(APPEND GTSAM_ADDITIONAL_LIBRARIES "tcmalloc")
endif()
# Include boost - use 'BEFORE' so that a specific boost specified to CMake
# takes precedence over a system-installed one.
include_directories(BEFORE SYSTEM ${Boost_INCLUDE_DIR})
if(GTSAM_SUPPORT_NESTED_DISSECTION)
set(METIS_INCLUDE_DIRECTORIES
gtsam/3rdparty/metis/include
gtsam/3rdparty/metis/libmetis
gtsam/3rdparty/metis/GKlib)
else()
set(METIS_INCLUDE_DIRECTORIES)
endif()
# Add includes for source directories 'BEFORE' boost and any system include
# paths so that the compiler uses GTSAM headers in our source directory instead
# of any previously installed GTSAM headers.
include_directories(BEFORE
gtsam/3rdparty/SuiteSparse_config
gtsam/3rdparty/CCOLAMD/Include
${METIS_INCLUDE_DIRECTORIES}
${PROJECT_SOURCE_DIR}
${PROJECT_BINARY_DIR} # So we can include generated config header files
CppUnitLite)
if(MSVC)
list(APPEND GTSAM_COMPILE_DEFINITIONS _CRT_SECURE_NO_WARNINGS _SCL_SECURE_NO_WARNINGS)
list(APPEND GTSAM_COMPILE_OPTIONS /wd4251 /wd4275 /wd4251 /wd4661 /wd4344 /wd4503) # Disable non-DLL-exported base class and other warnings
list(APPEND GTSAM_COMPILE_OPTIONS /bigobj) # Allow large object files for template-based code
list(APPEND GTSAM_COMPILE_DEFINITIONS_PRIVATE _CRT_SECURE_NO_WARNINGS _SCL_SECURE_NO_WARNINGS)
list(APPEND GTSAM_COMPILE_OPTIONS_PRIVATE /wd4251 /wd4275 /wd4251 /wd4661 /wd4344 /wd4503) # Disable non-DLL-exported base class and other warnings
list(APPEND GTSAM_COMPILE_OPTIONS_PRIVATE /bigobj) # Allow large object files for template-based code
endif()
# GCC 4.8+ complains about local typedefs which we use for shared_ptr etc.
if(CMAKE_CXX_COMPILER_ID STREQUAL "GNU")
if (NOT CMAKE_CXX_COMPILER_VERSION VERSION_LESS 4.8)
list(APPEND GTSAM_COMPILE_OPTIONS -Wno-unused-local-typedefs)
list(APPEND GTSAM_COMPILE_OPTIONS_PRIVATE -Wno-unused-local-typedefs)
endif()
endif()
# As of XCode 7, clang also complains about this
if(CMAKE_CXX_COMPILER_ID STREQUAL "Clang")
if (NOT CMAKE_CXX_COMPILER_VERSION VERSION_LESS 7.0)
list(APPEND GTSAM_COMPILE_OPTIONS -Wno-unused-local-typedefs)
list(APPEND GTSAM_COMPILE_OPTIONS_PRIVATE -Wno-unused-local-typedefs)
endif()
endif()
if(GTSAM_ENABLE_CONSISTENCY_CHECKS)
list(APPEND GTSAM_COMPILE_DEFINITIONS GTSAM_EXTRA_CONSISTENCY_CHECKS)
# This should be made PUBLIC if GTSAM_EXTRA_CONSISTENCY_CHECKS is someday used in a public .h
list(APPEND GTSAM_COMPILE_DEFINITIONS_PRIVATE GTSAM_EXTRA_CONSISTENCY_CHECKS)
endif()
###############################################################################

1
CppUnitLite/CMakeLists.txt
View File

@ -6,6 +6,7 @@ file(GLOB cppunitlite_src "*.cpp")
add_library(CppUnitLite STATIC ${cppunitlite_src} ${cppunitlite_headers})
list(APPEND GTSAM_EXPORTED_TARGETS CppUnitLite)
set(GTSAM_EXPORTED_TARGETS "${GTSAM_EXPORTED_TARGETS}" PARENT_SCOPE)
target_link_libraries(CppUnitLite PUBLIC Boost::boost) # boost/lexical_cast.h
gtsam_assign_source_folders("${cppunitlite_headers};${cppunitlite_src}") # MSVC project structure

64
INSTALL
View File

@ -14,7 +14,7 @@ Important Installation Notes
1)
GTSAM requires the following libraries to be installed on your system:
- BOOST version 1.43 or greater (install through Linux repositories or MacPorts)
- Cmake version 2.6 or higher
- Cmake version 3.0 or higher
- Support for XCode 4.3 command line tools on Mac requires CMake 2.8.8 or higher
Optional dependent libraries:
@ -33,20 +33,20 @@ Tested compilers:
Tested systems:
- Ubuntu 11.04 - 13.10
- Ubuntu 11.04 - 18.04
- MacOS 10.6 - 10.9
- Windows 7, 8, 8.1
- Windows 7, 8, 8.1, 10
Known issues:
- MSVC 2013 is not yet supported because it cannot build the serialization module
of Boost 1.55 (or earlier).
of Boost 1.55 (or earlier).
2)
GTSAM makes extensive use of debug assertions, and we highly recommend you work
in Debug mode while developing (enabled by default). Likewise, it is imperative
that you switch to release mode when running finished code and for timing. GTSAM
will run up to 10x faster in Release mode! See the end of this document for
will run up to 10x faster in Release mode! See the end of this document for
additional debugging tips.
3)
@ -55,7 +55,7 @@ build directory.
4)
The instructions below install the library to the default system install path and
build all components. From a terminal, starting in the root library folder,
build all components. From a terminal, starting in the root library folder,
execute commands as follows for an out-of-source build:
$] mkdir build
@ -64,7 +64,7 @@ $] cmake ..
$] make check (optional, runs unit tests)
$] make install
This will build the library and unit tests, run all of the unit tests,
This will build the library and unit tests, run all of the unit tests,
and then install the library itself.
- CMake Configuration Options and Details
@ -75,12 +75,12 @@ one of the following:
ccmake the curses GUI for cmake
cmake-gui a real GUI for cmake
Important Options:
Important Options:
CMAKE_BUILD_TYPE: We support several build configurations for GTSAM (case insensitive)
Debug (default) All error checking options on, no optimization. Use for development.
Release Optimizations turned on, no debug symbols.
Timing Adds ENABLE_TIMING flag to provide statistics on operation
Release Optimizations turned on, no debug symbols.
Timing Adds ENABLE_TIMING flag to provide statistics on operation
Profiling Standard configuration for use during profiling
RelWithDebInfo Same as Release, but with the -g flag for debug symbols
@ -92,42 +92,42 @@ GTSAM_TOOLBOX_INSTALL_PATH: The Matlab toolbox will be installed in a subdirecto
of this folder, called 'gtsam'.
$] cmake -DGTSAM_TOOLBOX_INSTALL_PATH:PATH=$HOME/toolbox ..
GTSAM_BUILD_CONVENIENCE_LIBRARIES: This is a build option to allow for tests in
subfolders to be linked against convenience libraries rather than the full libgtsam.
GTSAM_BUILD_CONVENIENCE_LIBRARIES: This is a build option to allow for tests in
subfolders to be linked against convenience libraries rather than the full libgtsam.
Set with the command line as follows:
$] cmake -DGTSAM_BUILD_CONVENIENCE_LIBRARIES:OPTION=ON ..
ON (Default) This builds convenience libraries and links tests against them. This
option is suggested for gtsam developers, as it is possible to build
and run tests without first building the rest of the library, and
speeds up compilation for a single test. The downside of this option
is that it will build the entire library again to build the full
ON (Default) This builds convenience libraries and links tests against them. This
option is suggested for gtsam developers, as it is possible to build
and run tests without first building the rest of the library, and
speeds up compilation for a single test. The downside of this option
is that it will build the entire library again to build the full
libgtsam library, so build/install will be slower.
OFF This will build all of libgtsam before any of the tests, and then
link all of the tests at once. This option is best for users of GTSAM,
as it avoids rebuilding the entirety of gtsam an extra time.
OFF This will build all of libgtsam before any of the tests, and then
link all of the tests at once. This option is best for users of GTSAM,
as it avoids rebuilding the entirety of gtsam an extra time.
GTSAM_BUILD_UNSTABLE: Enable build and install for libgtsam_unstable library.
GTSAM_BUILD_UNSTABLE: Enable build and install for libgtsam_unstable library.
Set with the command line as follows:
$] cmake -DGTSAM_BUILD_UNSTABLE:OPTION=ON ..
ON When enabled, libgtsam_unstable will be built and installed with the
same options as libgtsam. In addition, if tests are enabled, the
ON When enabled, libgtsam_unstable will be built and installed with the
same options as libgtsam. In addition, if tests are enabled, the
unit tests will be built as well. The Matlab toolbox will also
be generated if the matlab toolbox is enabled, installing into a
be generated if the matlab toolbox is enabled, installing into a
folder called "gtsam_unstable".
OFF (Default) If disabled, no gtsam_unstable code will be included in build or install.
OFF (Default) If disabled, no gtsam_unstable code will be included in build or install.
Check
"make check" will build and run all of the tests. Note that the tests will only be
"make check" will build and run all of the tests. Note that the tests will only be
built when using the "check" targets, to prevent "make install" from building the tests
unnecessarily. You can also run "make timing" to build all of the timing scripts.
unnecessarily. You can also run "make timing" to build all of the timing scripts.
To run check on a particular module only, run "make check.[subfolder]", so to run
just the geometry tests, run "make check.geometry". Individual tests can be run by
appending ".run" to the name of the test, for example, to run testMatrix, run
"make testMatrix.run".
appending ".run" to the name of the test, for example, to run testMatrix, run
"make testMatrix.run".
MEX_COMMAND: Path to the mex compiler. Defaults to assume the path is included in your
shell's PATH environment variable. mex is installed with matlab at
MEX_COMMAND: Path to the mex compiler. Defaults to assume the path is included in your
shell's PATH environment variable. mex is installed with matlab at
$MATLABROOT/bin/mex
$MATLABROOT can be found by executing the command 'matlabroot' in MATLAB
@ -143,4 +143,4 @@ it impossible to use _GLIBCXX_DEBUG. MacPorts g++ compilers do work with it tho
NOTE: If _GLIBCXX_DEBUG is used to compile gtsam, anything that links against
gtsam will need to be compiled with _GLIBCXX_DEBUG as well, due to the use of
header-only Eigen.
header-only Eigen.

10
README.md
View File

@ -30,7 +30,7 @@ $ make install
Prerequisites:
- [Boost](http://www.boost.org/users/download/) >= 1.43 (Ubuntu: `sudo apt-get install libboost-all-dev`)
- [CMake](http://www.cmake.org/cmake/resources/software.html) >= 2.6 (Ubuntu: `sudo apt-get install cmake`)
- [CMake](http://www.cmake.org/cmake/resources/software.html) >= 3.0 (Ubuntu: `sudo apt-get install cmake`)
- A modern compiler, i.e., at least gcc 4.7.3 on Linux.
Optional prerequisites - used automatically if findable by CMake:
@ -54,7 +54,7 @@ GTSAM includes a state of the art IMU handling scheme based on
Our implementation improves on this using integration on the manifold, as detailed in
- Luca Carlone, Zsolt Kira, Chris Beall, Vadim Indelman, and Frank Dellaert, "Eliminating conditionally independent sets in factor graphs: a unifying perspective based on smart factors", Int. Conf. on Robotics and Automation (ICRA), 2014.
- Luca Carlone, Zsolt Kira, Chris Beall, Vadim Indelman, and Frank Dellaert, "Eliminating conditionally independent sets in factor graphs: a unifying perspective based on smart factors", Int. Conf. on Robotics and Automation (ICRA), 2014.
- Christian Forster, Luca Carlone, Frank Dellaert, and Davide Scaramuzza, "IMU Preintegration on Manifold for Efficient Visual-Inertial Maximum-a-Posteriori Estimation", Robotics: Science and Systems (RSS), 2015.
If you are using the factor in academic work, please cite the publications above.
@ -67,8 +67,8 @@ Additional Information
There is a [`GTSAM users Google group`](https://groups.google.com/forum/#!forum/gtsam-users) for general discussion.
Read about important [`GTSAM-Concepts`](GTSAM-Concepts.md) here. A primer on GTSAM Expressions,
which support (superfast) automatic differentiation,
Read about important [`GTSAM-Concepts`](GTSAM-Concepts.md) here. A primer on GTSAM Expressions,
which support (superfast) automatic differentiation,
can be found on the [GTSAM wiki on BitBucket](https://bitbucket.org/gtborg/gtsam/wiki/Home).
See the [`INSTALL`](INSTALL) file for more detailed installation instructions.
@ -77,4 +77,4 @@ GTSAM is open source under the BSD license, see the [`LICENSE`](LICENSE) and [`L
Please see the [`examples/`](examples) directory and the [`USAGE`](USAGE.md) file for examples on how to use GTSAM.
GTSAM was developed in the lab of [Frank Dellaert](http://www.cc.gatech.edu/~dellaert) at the [Georgia Institute of Technology](http://www.gatech.edu), with the help of many contributors over the years, see [THANKS](THANKS).
GTSAM was developed in the lab of [Frank Dellaert](http://www.cc.gatech.edu/~dellaert) at the [Georgia Institute of Technology](http://www.gatech.edu), with the help of many contributors over the years, see [THANKS](THANKS).

8
cmake/Config.cmake.in
View File

@ -1,7 +1,7 @@
# - Config file for @CMAKE_PROJECT_NAME@
# It defines the following variables
# @PACKAGE_NAME@_INCLUDE_DIR - include directories for @CMAKE_PROJECT_NAME@
# Compute paths
get_filename_component(OUR_CMAKE_DIR "${CMAKE_CURRENT_LIST_FILE}" PATH)
if(EXISTS "${OUR_CMAKE_DIR}/CMakeCache.txt")
@ -11,7 +11,11 @@ else()
# Find installed library
set(@PACKAGE_NAME@_INCLUDE_DIR "${OUR_CMAKE_DIR}/@CONF_REL_INCLUDE_DIR@" CACHE PATH "@PACKAGE_NAME@ include directory")
endif()
# Find dependencies, required by cmake exported targets:
include(CMakeFindDependencyMacro)
find_dependency(Boost @BOOST_FIND_MINIMUM_VERSION@ COMPONENTS @BOOST_FIND_MINIMUM_COMPONENTS@)
# Load exports
include(${OUR_CMAKE_DIR}/@PACKAGE_NAME@-exports.cmake)

5
cmake/example_project/CMakeLists.txt
View File

@ -22,7 +22,10 @@ include_directories(BEFORE "${PROJECT_SOURCE_DIR}")
###################################################################################
# Find GTSAM components
find_package(GTSAM REQUIRED) # Uses installed package
include_directories(${GTSAM_INCLUDE_DIR})
# Note: Since Jan-2019, GTSAMConfig.cmake defines exported CMake targets
# that automatically do include the include_directories() without the need
# to call include_directories(), just target_link_libraries(NAME gtsam)
#include_directories(${GTSAM_INCLUDE_DIR})
###################################################################################
# Build static library from common sources

112
cython/gtsam/tests/experiments.py
View File

@ -1,112 +0,0 @@
"""
This file is not a real python unittest. It contains small experiments
to test the wrapper with gtsam_test, a short version of gtsam.h.
Its name convention is different from other tests so it won't be discovered.
"""
import gtsam
import numpy as np
r = gtsam.Rot3()
print(r)
print(r.pitch())
r2 = gtsam.Rot3()
r3 = r.compose(r2)
print("r3 pitch:", r3.pitch())
v = np.array([1, 1, 1])
print("v = ", v)
r4 = r3.retract(v)
print("r4 pitch:", r4.pitch())
r4.print_(b'r4: ')
r3.print_(b"r3: ")
v = r3.localCoordinates(r4)
print("localCoordinates:", v)
Rmat = np.array([
[0.990074, -0.0942928, 0.104218],
[0.104218, 0.990074, -0.0942928],
[-0.0942928, 0.104218, 0.990074]
])
r5 = gtsam.Rot3(Rmat)
r5.print_(b"r5: ")
l = gtsam.Rot3.Logmap(r5)
print("l = ", l)
noise = gtsam.noiseModel_Gaussian.Covariance(Rmat)
noise.print_(b"noise:")
D = np.array([1.,2.,3.])
diag = gtsam.noiseModel_Diagonal.Variances(D)
print("diag:", diag)
diag.print_(b"diag:")
print("diag R:", diag.R())
p = gtsam.Point3()
p.print_("p:")
factor = gtsam.BetweenFactorPoint3(1,2,p, noise)
factor.print_(b"factor:")
vv = gtsam.VectorValues()
vv.print_(b"vv:")
vv.insert(1, np.array([1.,2.,3.]))
vv.insert(2, np.array([3.,4.]))
vv.insert(3, np.array([5.,6.,7.,8.]))
vv.print_(b"vv:")
vv2 = gtsam.VectorValues(vv)
vv2.insert(4, np.array([4.,2.,1]))
vv2.print_(b"vv2:")
vv.print_(b"vv:")
vv.insert(4, np.array([1.,2.,4.]))
vv.print_(b"vv:")
vv3 = vv.add(vv2)
vv3.print_(b"vv3:")
values = gtsam.Values()
values.insert(1, gtsam.Point3())
values.insert(2, gtsam.Rot3())
values.print_(b"values:")
factor = gtsam.PriorFactorVector(1, np.array([1.,2.,3.]), diag)
print "Prior factor vector: ", factor
keys = gtsam.KeyVector()
keys.push_back(1)
keys.push_back(2)
print 'size: ', keys.size()
print keys.at(0)
print keys.at(1)
noise = gtsam.noiseModel_Isotropic.Precision(2, 3.0)
noise.print_('noise:')
print 'noise print:', noise
f = gtsam.JacobianFactor(7, np.ones([2,2]), model=noise, b=np.ones(2))
print 'JacobianFactor(7):\n', f
print "A = ", f.getA()
print "b = ", f.getb()
f = gtsam.JacobianFactor(np.ones(2))
f.print_('jacoboian b_in:')
print "JacobianFactor initalized with b_in:", f
diag = gtsam.noiseModel_Diagonal.Sigmas(np.array([1.,2.,3.]))
fv = gtsam.PriorFactorVector(1, np.array([4.,5.,6.]), diag)
print "priorfactorvector: ", fv
print "base noise: ", fv.get_noiseModel()
print "casted to gaussian2: ", gtsam.dynamic_cast_noiseModel_Diagonal_noiseModel_Base(fv.get_noiseModel())
X = gtsam.symbol(65, 19)
print X
print gtsam.symbolChr(X)
print gtsam.symbolIndex(X)

772
cython/gtsam/tests/gtsam_test.h
View File

@ -1,772 +0,0 @@
namespace gtsam {
#include <gtsam/inference/Key.h>
typedef size_t Key;
#include <gtsam/base/FastVector.h>
template<T> class FastVector {
FastVector();
FastVector(const This& f);
void push_back(const T& e);
//T& operator[](int);
T at(int i);
size_t size() const;
};
typedef gtsam::FastVector<gtsam::Key> KeyVector;
//*************************************************************************
// geometry
//*************************************************************************
#include <gtsam/geometry/Point2.h>
class Point2 {
// Standard Constructors
Point2();
Point2(double x, double y);
Point2(Vector v);
//Point2(const gtsam::Point2& l);
// Testable
void print(string s) const;
bool equals(const gtsam::Point2& pose, double tol) const;
// Group
static gtsam::Point2 identity();
// Standard Interface
double x() const;
double y() const;
Vector vector() const;
double distance(const gtsam::Point2& p2) const;
double norm() const;
// enabling serialization functionality
void serialize() const;
};
#include <gtsam/geometry/Point3.h>
class Point3 {
// Standard Constructors
Point3();
Point3(double x, double y, double z);
Point3(Vector v);
//Point3(const gtsam::Point3& l);
// Testable
void print(string s) const;
bool equals(const gtsam::Point3& p, double tol) const;
// Group
static gtsam::Point3 identity();
// Standard Interface
Vector vector() const;
double x() const;
double y() const;
double z() const;
// enabling serialization functionality
void serialize() const;
};
#include <gtsam/geometry/Rot2.h>
class Rot2 {
// Standard Constructors and Named Constructors
Rot2();
Rot2(double theta);
//Rot2(const gtsam::Rot2& l);
static gtsam::Rot2 fromAngle(double theta);
static gtsam::Rot2 fromDegrees(double theta);
static gtsam::Rot2 fromCosSin(double c, double s);
// Testable
void print(string s) const;
bool equals(const gtsam::Rot2& rot, double tol) const;
// Group
static gtsam::Rot2 identity();
gtsam::Rot2 inverse();
gtsam::Rot2 compose(const gtsam::Rot2& p2) const;
gtsam::Rot2 between(const gtsam::Rot2& p2) const;
// Manifold
gtsam::Rot2 retract(Vector v) const;
Vector localCoordinates(const gtsam::Rot2& p) const;
// Lie Group
static gtsam::Rot2 Expmap(Vector v);
static Vector Logmap(const gtsam::Rot2& p);
// Group Action on Point2
gtsam::Point2 rotate(const gtsam::Point2& point) const;
gtsam::Point2 unrotate(const gtsam::Point2& point) const;
// Standard Interface
static gtsam::Rot2 relativeBearing(const gtsam::Point2& d); // Ignoring derivative
static gtsam::Rot2 atan2(double y, double x);
double theta() const;
double degrees() const;
double c() const;
double s() const;
Matrix matrix() const;
// enabling serialization functionality
void serialize() const;
};
#include <gtsam/geometry/Rot3.h>
class Rot3 {
// Standard Constructors and Named Constructors
Rot3();
Rot3(Matrix R);
//Rot3(const gtsam::Rot3& l);
static gtsam::Rot3 Rx(double t);
static gtsam::Rot3 Ry(double t);
static gtsam::Rot3 Rz(double t);
static gtsam::Rot3 RzRyRx(double x, double y, double z);
static gtsam::Rot3 RzRyRx(Vector xyz);
static gtsam::Rot3 Yaw(double t); // positive yaw is to right (as in aircraft heading)
static gtsam::Rot3 Pitch(double t); // positive pitch is up (increasing aircraft altitude)
static gtsam::Rot3 Roll(double t); // positive roll is to right (increasing yaw in aircraft)
static gtsam::Rot3 Ypr(double y, double p, double r);
static gtsam::Rot3 Quaternion(double w, double x, double y, double z);
static gtsam::Rot3 Rodrigues(Vector v);
// Testable
void print(string s) const;
bool equals(const gtsam::Rot3& rot, double tol) const;
// Group
static gtsam::Rot3 identity();
gtsam::Rot3 inverse() const;
gtsam::Rot3 compose(const gtsam::Rot3& p2) const;
gtsam::Rot3 between(const gtsam::Rot3& p2) const;
// Manifold
//gtsam::Rot3 retractCayley(Vector v) const; // FIXME, does not exist in both Matrix and Quaternion options
gtsam::Rot3 retract(Vector v) const;
Vector localCoordinates(const gtsam::Rot3& p) const;
// Group Action on Point3
gtsam::Point3 rotate(const gtsam::Point3& p) const;
gtsam::Point3 unrotate(const gtsam::Point3& p) const;
// Standard Interface
static gtsam::Rot3 Expmap(Vector v);
static Vector Logmap(const gtsam::Rot3& p);
Matrix matrix() const;
Matrix transpose() const;
gtsam::Point3 column(size_t index) const;
Vector xyz() const;
Vector ypr() const;
Vector rpy() const;
double roll() const;
double pitch() const;
double yaw() const;
// Vector toQuaternion() const; // FIXME: Can't cast to Vector properly
Vector quaternion() const;
// enabling serialization functionality
void serialize() const;
};
#include <gtsam/geometry/Pose2.h>
class Pose2 {
// Standard Constructor
Pose2();
//Pose2(const gtsam::Pose2& pose);
Pose2(double x, double y, double theta);
Pose2(double theta, const gtsam::Point2& t);
Pose2(const gtsam::Rot2& r, const gtsam::Point2& t);
Pose2(Vector v);
// Testable
void print(string s) const;
bool equals(const gtsam::Pose2& pose, double tol) const;
// Group
static gtsam::Pose2 identity();
gtsam::Pose2 inverse() const;
gtsam::Pose2 compose(const gtsam::Pose2& p2) const;
gtsam::Pose2 between(const gtsam::Pose2& p2) const;
// Manifold
gtsam::Pose2 retract(Vector v) const;
Vector localCoordinates(const gtsam::Pose2& p) const;
// Lie Group
static gtsam::Pose2 Expmap(Vector v);
static Vector Logmap(const gtsam::Pose2& p);
Matrix AdjointMap() const;
Vector Adjoint(const Vector& xi) const;
static Matrix wedge(double vx, double vy, double w);
// Group Actions on Point2
gtsam::Point2 transform_from(const gtsam::Point2& p) const;
gtsam::Point2 transform_to(const gtsam::Point2& p) const;
// Standard Interface
double x() const;
double y() const;
double theta() const;
gtsam::Rot2 bearing(const gtsam::Point2& point) const;
double range(const gtsam::Point2& point) const;
gtsam::Point2 translation() const;
gtsam::Rot2 rotation() const;
Matrix matrix() const;
// enabling serialization functionality
void serialize() const;
};
#include <gtsam/geometry/Pose3.h>
class Pose3 {
// Standard Constructors
Pose3();
//Pose3(const gtsam::Pose3& pose);
Pose3(const gtsam::Rot3& r, const gtsam::Point3& t);
Pose3(const gtsam::Pose2& pose2); // FIXME: shadows Pose3(Pose3 pose)
Pose3(Matrix t);
// Testable
void print(string s) const;
bool equals(const gtsam::Pose3& pose, double tol) const;
// Group
static gtsam::Pose3 identity();
gtsam::Pose3 inverse() const;
gtsam::Pose3 compose(const gtsam::Pose3& p2) const;
gtsam::Pose3 between(const gtsam::Pose3& p2) const;
// Manifold
gtsam::Pose3 retract(Vector v) const;
Vector localCoordinates(const gtsam::Pose3& T2) const;
// Lie Group
static gtsam::Pose3 Expmap(Vector v);
static Vector Logmap(const gtsam::Pose3& p);
Matrix AdjointMap() const;
Vector Adjoint(Vector xi) const;
static Matrix wedge(double wx, double wy, double wz, double vx, double vy, double vz);
// Group Action on Point3
gtsam::Point3 transform_from(const gtsam::Point3& p) const;
gtsam::Point3 transform_to(const gtsam::Point3& p) const;
// Standard Interface
gtsam::Rot3 rotation() const;
gtsam::Point3 translation() const;
double x() const;
double y() const;
double z() const;
Matrix matrix() const;
gtsam::Pose3 transform_to(const gtsam::Pose3& pose) const; // FIXME: shadows other transform_to()
double range(const gtsam::Point3& point);
double range(const gtsam::Pose3& pose);
// enabling serialization functionality
void serialize() const;
};
//*************************************************************************
// noise
//*************************************************************************
namespace noiseModel {
#include <gtsam/linear/NoiseModel.h>
virtual class Base {
};
virtual class Gaussian : gtsam::noiseModel::Base {
static gtsam::noiseModel::Gaussian* SqrtInformation(Matrix R);
static gtsam::noiseModel::Gaussian* Covariance(Matrix R);
Matrix R() const;
bool equals(gtsam::noiseModel::Base& expected, double tol);
void print(string s) const;
// enabling serialization functionality
void serializable() const;
};
virtual class Diagonal : gtsam::noiseModel::Gaussian {
static gtsam::noiseModel::Diagonal* Sigmas(Vector sigmas);
static gtsam::noiseModel::Diagonal* Variances(Vector variances);
static gtsam::noiseModel::Diagonal* Precisions(Vector precisions);
Matrix R() const;
void print(string s) const;
// enabling serialization functionality
void serializable() const;
};
virtual class Constrained : gtsam::noiseModel::Diagonal {
static gtsam::noiseModel::Constrained* MixedSigmas(const Vector& mu, const Vector& sigmas);
static gtsam::noiseModel::Constrained* MixedSigmas(double m, const Vector& sigmas);
static gtsam::noiseModel::Constrained* MixedVariances(const Vector& mu, const Vector& variances);
static gtsam::noiseModel::Constrained* MixedVariances(const Vector& variances);
static gtsam::noiseModel::Constrained* MixedPrecisions(const Vector& mu, const Vector& precisions);
static gtsam::noiseModel::Constrained* MixedPrecisions(const Vector& precisions);
static gtsam::noiseModel::Constrained* All(size_t dim);
static gtsam::noiseModel::Constrained* All(size_t dim, double mu);
gtsam::noiseModel::Constrained* unit() const;
// enabling serialization functionality
void serializable() const;
};
virtual class Isotropic : gtsam::noiseModel::Diagonal {
static gtsam::noiseModel::Isotropic* Sigma(size_t dim, double sigma);
static gtsam::noiseModel::Isotropic* Variance(size_t dim, double varianace);
static gtsam::noiseModel::Isotropic* Precision(size_t dim, double precision);
void print(string s) const;
// enabling serialization functionality
void serializable() const;
};
virtual class Unit : gtsam::noiseModel::Isotropic {
static gtsam::noiseModel::Unit* Create(size_t dim);
void print(string s) const;
// enabling serialization functionality
void serializable() const;
};
namespace mEstimator {
virtual class Base {
};
virtual class Null: gtsam::noiseModel::mEstimator::Base {
Null();
//Null(const gtsam::noiseModel::mEstimator::Null& other);
void print(string s) const;
static gtsam::noiseModel::mEstimator::Null* Create();
// enabling serialization functionality
void serializable() const;
};
virtual class Fair: gtsam::noiseModel::mEstimator::Base {
Fair(double c);
//Fair(const gtsam::noiseModel::mEstimator::Fair& other);
void print(string s) const;
static gtsam::noiseModel::mEstimator::Fair* Create(double c);
// enabling serialization functionality
void serializable() const;
};
virtual class Huber: gtsam::noiseModel::mEstimator::Base {
Huber(double k);
//Huber(const gtsam::noiseModel::mEstimator::Huber& other);
void print(string s) const;
static gtsam::noiseModel::mEstimator::Huber* Create(double k);
// enabling serialization functionality
void serializable() const;
};
virtual class Tukey: gtsam::noiseModel::mEstimator::Base {
Tukey(double k);
//Tukey(const gtsam::noiseModel::mEstimator::Tukey& other);
void print(string s) const;
static gtsam::noiseModel::mEstimator::Tukey* Create(double k);
// enabling serialization functionality
void serializable() const;
};
}///\namespace mEstimator
virtual class Robust : gtsam::noiseModel::Base {
Robust(const gtsam::noiseModel::mEstimator::Base* robust, const gtsam::noiseModel::Base* noise);
//Robust(const gtsam::noiseModel::Robust& other);
static gtsam::noiseModel::Robust* Create(const gtsam::noiseModel::mEstimator::Base* robust, const gtsam::noiseModel::Base* noise);
void print(string s) const;
// enabling serialization functionality
void serializable() const;
};
}///\namespace noiseModel
#include <gtsam/linear/Sampler.h>
class Sampler {
//Constructors
Sampler(gtsam::noiseModel::Diagonal* model, int seed);
Sampler(Vector sigmas, int seed);
Sampler(int seed);
//Sampler(const gtsam::Sampler& other);
//Standard Interface
size_t dim() const;
Vector sigmas() const;
gtsam::noiseModel::Diagonal* model() const;
Vector sample();
Vector sampleNewModel(gtsam::noiseModel::Diagonal* model);
};
#include <gtsam/linear/VectorValues.h>
class VectorValues {
//Constructors
VectorValues();
VectorValues(const gtsam::VectorValues& other);
//Named Constructors
static gtsam::VectorValues Zero(const gtsam::VectorValues& model);
//Standard Interface
size_t size() const;
size_t dim(size_t j) const;
bool exists(size_t j) const;
void print(string s) const;
bool equals(const gtsam::VectorValues& expected, double tol) const;
void insert(size_t j, Vector value);
Vector vector() const;
Vector at(size_t j) const;
void update(const gtsam::VectorValues& values);
//Advanced Interface
void setZero();
gtsam::VectorValues add(const gtsam::VectorValues& c) const;
void addInPlace(const gtsam::VectorValues& c);
gtsam::VectorValues subtract(const gtsam::VectorValues& c) const;
gtsam::VectorValues scale(double a) const;
void scaleInPlace(double a);
bool hasSameStructure(const gtsam::VectorValues& other) const;
double dot(const gtsam::VectorValues& V) const;
double norm() const;
double squaredNorm() const;
// enabling serialization functionality
void serialize() const;
};
#include <gtsam/linear/GaussianFactor.h>
virtual class GaussianFactor {
gtsam::KeyVector keys() const;
void print(string s) const;
bool equals(const gtsam::GaussianFactor& lf, double tol) const;
double error(const gtsam::VectorValues& c) const;
gtsam::GaussianFactor* clone() const;
gtsam::GaussianFactor* negate() const;
Matrix augmentedInformation() const;
Matrix information() const;
Matrix augmentedJacobian() const;
pair<Matrix, Vector> jacobian() const;
size_t size() const;
bool empty() const;
};
#include <gtsam/linear/JacobianFactor.h>
virtual class JacobianFactor : gtsam::GaussianFactor {
//Constructors
JacobianFactor();
JacobianFactor(const gtsam::GaussianFactor& factor);
JacobianFactor(Vector b_in);
JacobianFactor(size_t i1, Matrix A1, Vector b,
const gtsam::noiseModel::Diagonal* model);
JacobianFactor(size_t i1, Matrix A1, size_t i2, Matrix A2, Vector b,
const gtsam::noiseModel::Diagonal* model);
JacobianFactor(size_t i1, Matrix A1, size_t i2, Matrix A2, size_t i3, Matrix A3,
Vector b, const gtsam::noiseModel::Diagonal* model);
//JacobianFactor(const gtsam::GaussianFactorGraph& graph);
//JacobianFactor(const gtsam::JacobianFactor& other);
//Testable
void print(string s) const;
void printKeys(string s) const;
bool equals(const gtsam::GaussianFactor& lf, double tol) const;
size_t size() const;
Vector unweighted_error(const gtsam::VectorValues& c) const;
Vector error_vector(const gtsam::VectorValues& c) const;
double error(const gtsam::VectorValues& c) const;
//Standard Interface
Matrix getA() const;
Vector getb() const;
size_t rows() const;
size_t cols() const;
bool isConstrained() const;
pair<Matrix, Vector> jacobianUnweighted() const;
Matrix augmentedJacobianUnweighted() const;
void transposeMultiplyAdd(double alpha, const Vector& e, gtsam::VectorValues& x) const;
gtsam::JacobianFactor whiten() const;
//pair<gtsam::GaussianConditional*, gtsam::JacobianFactor*> eliminate(const gtsam::Ordering& keys) const;
void setModel(bool anyConstrained, const Vector& sigmas);
gtsam::noiseModel::Diagonal* get_model() const;
// enabling serialization functionality
void serialize() const;
};
#include <gtsam/linear/HessianFactor.h>
virtual class HessianFactor : gtsam::GaussianFactor {
//Constructors
HessianFactor();
HessianFactor(const gtsam::GaussianFactor& factor);
HessianFactor(size_t j, Matrix G, Vector g, double f);
HessianFactor(size_t j, Vector mu, Matrix Sigma);
HessianFactor(size_t j1, size_t j2, Matrix G11, Matrix G12, Vector g1, Matrix G22,
Vector g2, double f);
HessianFactor(size_t j1, size_t j2, size_t j3, Matrix G11, Matrix G12, Matrix G13,
Vector g1, Matrix G22, Matrix G23, Vector g2, Matrix G33, Vector g3,
double f);
//HessianFactor(const gtsam::GaussianFactorGraph& factors);
//HessianFactor(const gtsam::HessianFactor& other);
//Testable
size_t size() const;
void print(string s) const;
void printKeys(string s) const;
bool equals(const gtsam::GaussianFactor& lf, double tol) const;
double error(const gtsam::VectorValues& c) const;
//Standard Interface
size_t rows() const;
Matrix information() const;
double constantTerm() const;
Vector linearTerm() const;
// enabling serialization functionality
void serialize() const;
};
#include <gtsam/nonlinear/Values.h>
class Values {
Values();
//Values(const gtsam::Values& other);
size_t size() const;
bool empty() const;
void clear();
size_t dim() const;
void print(string s) const;
bool equals(const gtsam::Values& other, double tol) const;
void insert(const gtsam::Values& values);
void update(const gtsam::Values& values);
void erase(size_t j);
void swap(gtsam::Values& values);
bool exists(size_t j) const;
gtsam::KeyVector keys() const;
gtsam::VectorValues zeroVectors() const;
gtsam::Values retract(const gtsam::VectorValues& delta) const;
gtsam::VectorValues localCoordinates(const gtsam::Values& cp) const;
// enabling serialization functionality
void serialize() const;
// New in 4.0, we have to specialize every insert/update/at to generate wrappers
// Instead of the old:
// void insert(size_t j, const gtsam::Value& value);
// void update(size_t j, const gtsam::Value& val);
// gtsam::Value at(size_t j) const;
// template <T = {gtsam::Point2, gtsam::Rot2, gtsam::Pose2, gtsam::Point3,
// gtsam::Rot3, gtsam::Pose3}>
// void insert(size_t j, const T& t);
// template <T = {gtsam::Point2, gtsam::Rot2, gtsam::Pose2, gtsam::Point3,
// gtsam::Rot3, gtsam::Pose3}>
// void update(size_t j, const T& t);
void insert(size_t j, const gtsam::Point2& t);
void insert(size_t j, const gtsam::Point3& t);
void insert(size_t j, const gtsam::Rot2& t);
void insert(size_t j, const gtsam::Pose2& t);
void insert(size_t j, const gtsam::Rot3& t);
void insert(size_t j, const gtsam::Pose3& t);
void insert(size_t j, Vector t);
void insert(size_t j, Matrix t);
void update(size_t j, const gtsam::Point2& t);
void update(size_t j, const gtsam::Point3& t);
void update(size_t j, const gtsam::Rot2& t);
void update(size_t j, const gtsam::Pose2& t);
void update(size_t j, const gtsam::Rot3& t);
void update(size_t j, const gtsam::Pose3& t);
void update(size_t j, Vector t);
void update(size_t j, Matrix t);
template <T = {gtsam::Point2, gtsam::Rot2, gtsam::Pose2, gtsam::Point3,
gtsam::Rot3, gtsam::Pose3, Vector, Matrix}>
T at(size_t j);
/// version for double
void insertDouble(size_t j, double c);
double atDouble(size_t j) const;
};
#include <gtsam/nonlinear/NonlinearFactor.h>
virtual class NonlinearFactor {
// Factor base class
size_t size() const;
gtsam::KeyVector keys() const;
void print(string s) const;
void printKeys(string s) const;
// NonlinearFactor
bool equals(const gtsam::NonlinearFactor& other, double tol) const;
double error(const gtsam::Values& c) const;
size_t dim() const;
bool active(const gtsam::Values& c) const;
gtsam::GaussianFactor* linearize(const gtsam::Values& c) const;
gtsam::NonlinearFactor* clone() const;
// gtsam::NonlinearFactor* rekey(const gtsam::KeyVector& newKeys) const; //FIXME: Conversion from KeyVector to std::vector does not happen
};
#include <gtsam/nonlinear/NonlinearFactorGraph.h>
class NonlinearFactorGraph {
NonlinearFactorGraph();
//NonlinearFactorGraph(const gtsam::NonlinearFactorGraph& graph);
// FactorGraph
void print(string s) const;
bool equals(const gtsam::NonlinearFactorGraph& fg, double tol) const;
size_t size() const;
bool empty() const;
void remove(size_t i);
size_t nrFactors() const;
gtsam::NonlinearFactor* at(size_t idx) const;
void push_back(const gtsam::NonlinearFactorGraph& factors);
void push_back(gtsam::NonlinearFactor* factor);
void add(gtsam::NonlinearFactor* factor);
bool exists(size_t idx) const;
// gtsam::KeySet keys() const;
// NonlinearFactorGraph
double error(const gtsam::Values& values) const;
double probPrime(const gtsam::Values& values) const;
//gtsam::Ordering orderingCOLAMD() const;
// Ordering* orderingCOLAMDConstrained(const gtsam::Values& c, const std::map<gtsam::Key,int>& constraints) const;
//gtsam::GaussianFactorGraph* linearize(const gtsam::Values& values) const;
gtsam::NonlinearFactorGraph clone() const;
// enabling serialization functionality
void serialize() const;
};
#include <gtsam/nonlinear/NonlinearFactor.h>
virtual class NoiseModelFactor: gtsam::NonlinearFactor {
void equals(const gtsam::NoiseModelFactor& other, double tol) const;
gtsam::noiseModel::Base* get_noiseModel() const; // deprecated by below
gtsam::noiseModel::Base* noiseModel() const;
Vector unwhitenedError(const gtsam::Values& x) const;
Vector whitenedError(const gtsam::Values& x) const;
};
#include <gtsam/slam/PriorFactor.h>
template<T = {Vector, gtsam::Point2, gtsam::Point3, gtsam::Rot2, gtsam::Rot3, gtsam::Pose2, gtsam::Pose3}>
virtual class PriorFactor : gtsam::NoiseModelFactor {
PriorFactor(size_t key, const T& prior, const gtsam::noiseModel::Base* noiseModel);
//PriorFactor(const This& other);
T prior() const;
// enabling serialization functionality
void serialize() const;
};
#include <gtsam/slam/BetweenFactor.h>
template<T = {Vector, gtsam::Point2, gtsam::Point3, gtsam::Rot2, gtsam::Rot3, gtsam::Pose2, gtsam::Pose3}>
virtual class BetweenFactor : gtsam::NoiseModelFactor {
BetweenFactor(size_t key1, size_t key2, const T& relativePose, const gtsam::noiseModel::Base* noiseModel);
//BetweenFactor(const This& other);
T measured() const;
// enabling serialization functionality
void serialize() const;
};
#include <gtsam/inference/Symbol.h>
size_t symbol(char chr, size_t index);
char symbolChr(size_t key);
size_t symbolIndex(size_t key);
#include <gtsam/inference/Key.h>
// Default keyformatter
void PrintKeyVector(const gtsam::KeyVector& keys);
void PrintKeyVector(const gtsam::KeyVector& keys, string s);
#include <gtsam/nonlinear/NonlinearOptimizer.h>
bool checkConvergence(double relativeErrorTreshold,
double absoluteErrorTreshold, double errorThreshold,
double currentError, double newError);
#include <gtsam/slam/dataset.h>
pair<gtsam::NonlinearFactorGraph*, gtsam::Values*> load2D(string filename,
gtsam::noiseModel::Diagonal* model, int maxID, bool addNoise, bool smart);
pair<gtsam::NonlinearFactorGraph*, gtsam::Values*> load2D(string filename,
gtsam::noiseModel::Diagonal* model, int maxID, bool addNoise);
pair<gtsam::NonlinearFactorGraph*, gtsam::Values*> load2D(string filename,
gtsam::noiseModel::Diagonal* model, int maxID);
pair<gtsam::NonlinearFactorGraph*, gtsam::Values*> load2D(string filename,
gtsam::noiseModel::Diagonal* model);
pair<gtsam::NonlinearFactorGraph*, gtsam::Values*> load2D(string filename);
pair<gtsam::NonlinearFactorGraph*, gtsam::Values*> load2D_robust(string filename,
gtsam::noiseModel::Base* model);
void save2D(const gtsam::NonlinearFactorGraph& graph,
const gtsam::Values& config, gtsam::noiseModel::Diagonal* model,
string filename);
pair<gtsam::NonlinearFactorGraph*, gtsam::Values*> readG2o(string filename);
void writeG2o(const gtsam::NonlinearFactorGraph& graph,
const gtsam::Values& estimate, string filename);
//*************************************************************************
// Utilities
//*************************************************************************
namespace utilities {
#include <gtsam/nonlinear/utilities.h>
// gtsam::KeyList createKeyList(Vector I);
// gtsam::KeyList createKeyList(string s, Vector I);
gtsam::KeyVector createKeyVector(Vector I);
gtsam::KeyVector createKeyVector(string s, Vector I);
// gtsam::KeySet createKeySet(Vector I);
// gtsam::KeySet createKeySet(string s, Vector I);
Matrix extractPoint2(const gtsam::Values& values);
Matrix extractPoint3(const gtsam::Values& values);
Matrix extractPose2(const gtsam::Values& values);
gtsam::Values allPose3s(gtsam::Values& values);
Matrix extractPose3(const gtsam::Values& values);
void perturbPoint2(gtsam::Values& values, double sigma, int seed);
void perturbPose2 (gtsam::Values& values, double sigmaT, double sigmaR, int seed);
void perturbPoint3(gtsam::Values& values, double sigma, int seed);
// void insertBackprojections(gtsam::Values& values, const gtsam::SimpleCamera& c, Vector J, Matrix Z, double depth);
// void insertProjectionFactors(gtsam::NonlinearFactorGraph& graph, size_t i, Vector J, Matrix Z, const gtsam::noiseModel::Base* model, const gtsam::Cal3_S2* K);
// void insertProjectionFactors(gtsam::NonlinearFactorGraph& graph, size_t i, Vector J, Matrix Z, const gtsam::noiseModel::Base* model, const gtsam::Cal3_S2* K, const gtsam::Pose3& body_P_sensor);
Matrix reprojectionErrors(const gtsam::NonlinearFactorGraph& graph, const gtsam::Values& values);
gtsam::Values localToWorld(const gtsam::Values& local, const gtsam::Pose2& base);
gtsam::Values localToWorld(const gtsam::Values& local, const gtsam::Pose2& base, const gtsam::KeyVector& keys);
} //\namespace utilities
#include <gtsam/nonlinear/utilities.h>
class RedirectCout {
RedirectCout();
string str();
};
} //\namespace gtsam

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"""Pose2 unit tests."""
import unittest
import numpy as np
from gtsam import Pose2
class TestPose2(unittest.TestCase):
"""Test selected Pose2 methods."""
def test_adjoint(self):
"""Test adjoint method."""
xi = np.array([1, 2, 3])
expected = np.dot(Pose2.adjointMap_(xi), xi)
actual = Pose2.adjoint_(xi, xi)
np.testing.assert_array_equal(actual, expected)
if __name__ == "__main__":
unittest.main()

4
cython/gtsam/tests/test_Pose3.py
View File

@ -49,8 +49,8 @@ class TestPose3(unittest.TestCase):
def test_adjoint(self):
"""Test adjoint method."""
xi = np.array([1, 2, 3, 4, 5, 6])
expected = np.dot(Pose3.adjointMap(xi), xi)
actual = Pose3.adjoint(xi, xi)
expected = np.dot(Pose3.adjointMap_(xi), xi)
actual = Pose3.adjoint_(xi, xi)
np.testing.assert_array_equal(actual, expected)

11
cython/gtsam_eigency/CMakeLists.txt
View File

@ -22,6 +22,17 @@ cythonize(cythonize_eigency_conversions "../gtsam_eigency/conversions.pyx" "conv
"${OUTPUT_DIR}" "${EIGENCY_INCLUDE_DIR}" "" "" "")
cythonize(cythonize_eigency_core "../gtsam_eigency/core.pyx" "core"
${OUTPUT_DIR} "${EIGENCY_INCLUDE_DIR}" "" "" "")
# Include Eigen headers:
target_include_directories(cythonize_eigency_conversions PUBLIC
$<BUILD_INTERFACE:${GTSAM_EIGEN_INCLUDE_FOR_BUILD}>
$<INSTALL_INTERFACE:${GTSAM_EIGEN_INCLUDE_FOR_INSTALL}>
)
target_include_directories(cythonize_eigency_core PUBLIC
$<BUILD_INTERFACE:${GTSAM_EIGEN_INCLUDE_FOR_BUILD}>
$<INSTALL_INTERFACE:${GTSAM_EIGEN_INCLUDE_FOR_INSTALL}>
)
add_dependencies(cythonize_eigency_core cythonize_eigency_conversions)
add_custom_target(cythonize_eigency)
add_dependencies(cythonize_eigency cythonize_eigency_conversions cythonize_eigency_core)

2
cython/gtsam_eigency/__init__.py.in
View File

@ -1,7 +1,7 @@
import os
import numpy as np
__eigen_dir__ = "${GTSAM_EIGEN_INCLUDE_PREFIX}"
__eigen_dir__ = "${GTSAM_EIGEN_INCLUDE_FOR_INSTALL}"
def get_includes(include_eigen=True):
root = os.path.dirname(__file__)

10
gtsam.h
View File

@ -577,9 +577,9 @@ class Pose2 {
static Matrix LogmapDerivative(const gtsam::Pose2& v);
Matrix AdjointMap() const;
Vector Adjoint(Vector xi) const;
static Matrix adjointMap(Vector v);
Vector adjoint(Vector xi, Vector y);
Vector adjointTranspose(Vector xi, Vector y);
static Matrix adjointMap_(Vector v);
static Vector adjoint_(Vector xi, Vector y);
static Vector adjointTranspose(Vector xi, Vector y);
static Matrix wedge(double vx, double vy, double w);
// Group Actions on Point2
@ -628,8 +628,8 @@ class Pose3 {
static Vector Logmap(const gtsam::Pose3& pose);
Matrix AdjointMap() const;
Vector Adjoint(Vector xi) const;
static Matrix adjointMap(Vector xi);
static Vector adjoint(Vector xi, Vector y);
static Matrix adjointMap_(Vector xi);
static Vector adjoint_(Vector xi, Vector y);
static Vector adjointTranspose(Vector xi, Vector y);
static Matrix ExpmapDerivative(Vector xi);
static Matrix LogmapDerivative(const gtsam::Pose3& xi);

52
gtsam/CMakeLists.txt
View File

@ -103,14 +103,62 @@ message(STATUS "Building GTSAM - shared: ${BUILD_SHARED_LIBS}")
add_library(gtsam ${gtsam_srcs})
target_link_libraries(gtsam PUBLIC ${GTSAM_BOOST_LIBRARIES})
target_link_libraries(gtsam PUBLIC ${GTSAM_ADDITIONAL_LIBRARIES})
target_compile_definitions(gtsam PUBLIC ${GTSAM_COMPILE_DEFINITIONS})
target_compile_options(gtsam PUBLIC ${GTSAM_COMPILE_OPTIONS})
target_compile_definitions(gtsam PRIVATE ${GTSAM_COMPILE_DEFINITIONS_PRIVATE})
target_compile_definitions(gtsam PUBLIC ${GTSAM_COMPILE_DEFINITIONS_PUBLIC})
if (NOT "${GTSAM_COMPILE_OPTIONS_PUBLIC}" STREQUAL "")
target_compile_options(gtsam PUBLIC ${GTSAM_COMPILE_OPTIONS_PUBLIC})
endif()
target_compile_options(gtsam PRIVATE ${GTSAM_COMPILE_OPTIONS_PRIVATE})
set_target_properties(gtsam PROPERTIES
OUTPUT_NAME gtsam
CLEAN_DIRECT_OUTPUT 1
VERSION ${gtsam_version}
SOVERSION ${gtsam_soversion})
# Append Eigen include path, set in top-level CMakeLists.txt to either
# system-eigen, or GTSAM eigen path
target_include_directories(gtsam PUBLIC
$<BUILD_INTERFACE:${GTSAM_EIGEN_INCLUDE_FOR_BUILD}>
$<INSTALL_INTERFACE:${GTSAM_EIGEN_INCLUDE_FOR_INSTALL}>
)
# MKL include dir:
if (GTSAM_USE_EIGEN_MKL)
target_include_directories(gtsam PUBLIC ${MKL_INCLUDE_DIR})
endif()
if(GTSAM_USE_TBB)
target_include_directories(gtsam PUBLIC ${TBB_INCLUDE_DIRS})
endif()
# Add includes for source directories 'BEFORE' boost and any system include
# paths so that the compiler uses GTSAM headers in our source directory instead
# of any previously installed GTSAM headers.
target_include_directories(gtsam BEFORE PUBLIC
# SuiteSparse_config
$<BUILD_INTERFACE:${CMAKE_CURRENT_SOURCE_DIR}/3rdparty/SuiteSparse_config>
$<INSTALL_INTERFACE:${CMAKE_INSTALL_PREFIX}/include/gtsam/3rdparty/SuiteSparse_config>
# CCOLAMD
$<BUILD_INTERFACE:${CMAKE_CURRENT_SOURCE_DIR}/3rdparty/CCOLAMD/Include>
$<INSTALL_INTERFACE:${CMAKE_INSTALL_PREFIX}/include/gtsam/3rdparty/CCOLAMD>
# main gtsam includes:
$<BUILD_INTERFACE:${CMAKE_SOURCE_DIR}>
$<INSTALL_INTERFACE:${CMAKE_INSTALL_PREFIX}/include/>
# config.h
$<BUILD_INTERFACE:${CMAKE_BINARY_DIR}>
# unit tests:
$<BUILD_INTERFACE:${CMAKE_SOURCE_DIR}/CppUnitLite>
)
if(GTSAM_SUPPORT_NESTED_DISSECTION)
target_include_directories(gtsam BEFORE PUBLIC
$<BUILD_INTERFACE:${CMAKE_SOURCE_DIR}/gtsam/3rdparty/metis/include>
$<BUILD_INTERFACE:${CMAKE_SOURCE_DIR}/gtsam/3rdparty/metis/libmetis>
$<BUILD_INTERFACE:${CMAKE_SOURCE_DIR}/gtsam/3rdparty/metis/GKlib>
$<INSTALL_INTERFACE:${CMAKE_INSTALL_PREFIX}/include/gtsam/3rdparty/metis/>
)
endif()
if(WIN32) # Add 'lib' prefix to static library to avoid filename collision with shared library
if (NOT BUILD_SHARED_LIBS)
set_target_properties(gtsam PROPERTIES

8
gtsam/geometry/Pose2.h
View File

@ -146,17 +146,21 @@ public:
/**
* Action of the adjointMap on a Lie-algebra vector y, with optional derivatives
*/
Vector3 adjoint(const Vector3& xi, const Vector3& y) {
static Vector3 adjoint(const Vector3& xi, const Vector3& y) {
return adjointMap(xi) * y;
}
/**
* The dual version of adjoint action, acting on the dual space of the Lie-algebra vector space.
*/
Vector3 adjointTranspose(const Vector3& xi, const Vector3& y) {
static Vector3 adjointTranspose(const Vector3& xi, const Vector3& y) {
return adjointMap(xi).transpose() * y;
}
// temporary fix for wrappers until case issue is resolved
static Matrix3 adjointMap_(const Vector3 &xi) { return adjointMap(xi);}
static Vector3 adjoint_(const Vector3 &xi, const Vector3 &y) { return adjoint(xi, y);}
/**
* wedge for SE(2):
* @param xi 3-dim twist (v,omega) where

4
gtsam/geometry/Pose3.h
View File

@ -160,6 +160,10 @@ public:
static Vector6 adjoint(const Vector6 &xi, const Vector6 &y,
OptionalJacobian<6, 6> = boost::none);
// temporary fix for wrappers until case issue is resolved
static Matrix6 adjointMap_(const Vector6 &xi) { return adjointMap(xi);}
static Vector6 adjoint_(const Vector6 &xi, const Vector6 &y) { return adjoint(xi, y);}
/**
* The dual version of adjoint action, acting on the dual space of the Lie-algebra vector space.
*/

4
gtsam/slam/dataset.cpp
View File

@ -51,7 +51,6 @@ using namespace gtsam::symbol_shorthand;
namespace gtsam {
#ifndef MATLAB_MEX_FILE
/* ************************************************************************* */
string findExampleDataFile(const string& name) {
// Search source tree and installed location
@ -100,9 +99,6 @@ string createRewrittenFileName(const string& name) {
return newpath.string();
}
/* ************************************************************************* */
#endif
/* ************************************************************************* */
GraphAndValues load2D(pair<string, SharedNoiseModel> dataset, int maxID,
bool addNoise, bool smart, NoiseFormat noiseFormat,

2
gtsam/slam/dataset.h
View File

@ -37,7 +37,6 @@
namespace gtsam {
#ifndef MATLAB_MEX_FILE
/**
* Find the full path to an example dataset distributed with gtsam. The name
* may be specified with or without a file extension - if no extension is
@ -56,7 +55,6 @@ GTSAM_EXPORT std::string findExampleDataFile(const std::string& name);
* for checking read-write oprations
*/
GTSAM_EXPORT std::string createRewrittenFileName(const std::string& name);
#endif
/// Indicates how noise parameters are stored in file
enum NoiseFormat {

12
gtsam_extra.cmake.in
View File

@ -9,18 +9,6 @@ set (GTSAM_VERSION_STRING "@GTSAM_VERSION_STRING@")
set (GTSAM_USE_TBB @GTSAM_USE_TBB@)
set (GTSAM_DEFAULT_ALLOCATOR @GTSAM_DEFAULT_ALLOCATOR@)
if("@GTSAM_USE_TBB@")
list(APPEND GTSAM_INCLUDE_DIR "@TBB_INCLUDE_DIRS@")
endif()
# Append Eigen include path, set in top-level CMakeLists.txt to either
# system-eigen, or GTSAM eigen path
list(APPEND GTSAM_INCLUDE_DIR "@GTSAM_EIGEN_INCLUDE_PREFIX@")
if("@GTSAM_USE_EIGEN_MKL@")
list(APPEND GTSAM_INCLUDE_DIR "@MKL_INCLUDE_DIR@")
endif()
if("@GTSAM_INSTALL_CYTHON_TOOLBOX@")
list(APPEND GTSAM_EIGENCY_INSTALL_PATH "@GTSAM_EIGENCY_INSTALL_PATH@")
endif()

19
wrap/CMakeLists.txt
View File

@ -1,22 +1,30 @@
# Build/install Wrap
set(WRAP_BOOST_LIBRARIES ${Boost_SYSTEM_LIBRARY} ${Boost_FILESYSTEM_LIBRARY} ${Boost_THREAD_LIBRARY})
set(WRAP_BOOST_LIBRARIES
Boost::system
Boost::filesystem
Boost::thread
)
# Allow for disabling serialization to handle errors related to Clang's linker
option(GTSAM_WRAP_SERIALIZATION "If enabled, allows for wrapped objects to be saved via boost.serialization" ON)
if (NOT GTSAM_WRAP_SERIALIZATION)
add_definitions(-DWRAP_DISABLE_SERIALIZE)
endif()
# Build the executable itself
file(GLOB wrap_srcs "*.cpp")
file(GLOB wrap_headers "*.h")
list(REMOVE_ITEM wrap_srcs ${CMAKE_CURRENT_SOURCE_DIR}/wrap.cpp)
add_library(wrap_lib STATIC ${wrap_srcs} ${wrap_headers})
target_include_directories(wrap_lib PUBLIC
$<BUILD_INTERFACE:${CMAKE_SOURCE_DIR}>
)
if (NOT GTSAM_WRAP_SERIALIZATION)
target_compile_definitions(wrap_lib PUBLIC -DWRAP_DISABLE_SERIALIZE)
endif()
target_link_libraries(wrap_lib ${WRAP_BOOST_LIBRARIES})
gtsam_assign_source_folders(${wrap_srcs} ${wrap_headers})
add_executable(wrap wrap.cpp)
target_link_libraries(wrap wrap_lib ${WRAP_BOOST_LIBRARIES})
target_link_libraries(wrap PRIVATE wrap_lib)
# Set folder in Visual Studio
file(RELATIVE_PATH relative_path "${PROJECT_SOURCE_DIR}" "${CMAKE_CURRENT_SOURCE_DIR}")
@ -32,4 +40,3 @@ install(FILES matlab.h DESTINATION include/wrap)
# Build tests
add_subdirectory(tests)