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SpiceQL

Documentation Status CMake

This Library provides a C++ interface querying, reading and writing Naif SPICE kernels. Built on the Naif Toolkit.

Building The Library

The library leverages anaconda to maintain all of it's dependencies. So in order to build SpiceQL, you'll need to have Anaconda installed.

NOTE:If you already have Anaconda installed, skip to step 3.

  1. Download either the Anaconda or Miniconda installation script for your OS platform. Anaconda is a much larger distribtion of packages supporting scientific python, while Miniconda is a minimal installation and not as large: Anaconda installer, Miniconda installer
  2. If you are running on some variant of Linux, open a terminal window in the directory where you downloaded the script, and run the following commands. In this example, we chose to do a full install of Anaconda, and our OS is Linux-based. Your file name may be different depending on your environment.
    • If you are running Mac OS X, a pkg file (which looks similar to Anaconda3-5.3.0-MacOSX-x86_64.pkg) will be downloaded. Double-click on the file to start the installation process.
  3. Open a Command line prompt and run the following commands:
# Clone the Github repo, note the recursive flag, this library depends on
# submodules that also need to be cloned. --recurse-submodules enables this and
# the -j8 flag parallelizes the cloning process.
git clone --recurse-submodules -j8 https://github.com/DOI-USGS/SpiceQL.git

# cd into repo dir
cd SpiceQL

# Create new environment from the provided dependency file, the -n flag is
# proceded by the name of the new environment, change this to whatever works for you
conda env create -f environment.yml -n ssdev

# activate the new env
conda activate ssdev

# make and cd into the build directory. This can be placed anywhere, but here, we make
# it in the repo (build is in .gitingore, so no issues there)
mkdir build
cd build

# Configure the project, install directory can be anything, here, it's the conda env
cmake .. -DCMAKE_INSTALL_PREFIX=$CONDA_PREFIX

# Optional: DB files are installed by default in $CONDA_PREFIX/etc/SpiceQL/db to 
# use files that are included within the repo, you must create and define 
# an environment variable named SSPICE_DEBUG. 
# note SSPICE_DEBUG can be set to anything as long as it is defined
export SSPICE_DEBUG=True

# Set the environment variable(s) to point to your kernel install 
# The following environment variables are used by default in order of priority: 
# $SPICEROOT, $ALESPICEROOT, $ISISDATA. 
# SPICEROOT is unique to this lib, while ALESPICEROOT, and ISISDATA are used 
# by both ALE and ISIS respectively. 
# note you can set each of these environment variables path to point to the
# correspoding kernels downloaded location, ie 
SPICEROOT=~/spiceQL/Kernals/spiceRootKernel
ALESPICEROOT=~/spiceQL/Kernals/aleSpiceRootKernel
ISISDATA=~/spiceQL/Kernals/isisData

# build and install project
make install

# Optional, Run tests
ctest -j8

You can disable different components of the build by setting the CMAKE variables SPICEQL_BUILD_DOCS, SPICEQL_BUILD_TESTS, SPICEQL_BUILD_BINDINGS, or SPICEQL_BUILD_LIB to OFF. For example, the following cmake configuration command will not build the documentation or the tests:

cmake .. -DCMAKE_INSTALL_PREFIX=$CONDA_PREFIX -DSPICEQL_BUILD_DOCS=OFF -DSPICEQL_BUILD_TESTS=OFF

Bindings

The SpiceQL API is available via Python bindings in the module pyspiceql. The bindings are built using SWIG and are on by default. You can disable the bindings in your build by setting SPICEQL_BUILD_BINDINGS to OFF when configuring your build.

Memoization Header Library

SpiceQL has a simple memoization header only library at Spiceql/include/memo.h. This can cache function results on disk using a binary archive format mapped using a combined hash of a function ID and it's input parameters.

TLDR

#include "memo.h"

int func(int) { ... }
memoization::disk c("cache_path");

// use case 1: wrap function call
// (function ID, the function to wrap and then params
int result1 = c("func_id", func, 3);

// use case 2: wrap function
// (cache object, function ID, function)
auto func_memoed = memoization::make_memoized(c, "func_id", func);
int result2 = func_memoed(3);

assert(result1 == result2);

How to Pull a Release

  1. Create a branch with the new version name (e.g., 1.0)
  2. Update the version info in following files:
  • code.json - Append to the metadata with the updated version info
  • CMakeLists.txt - Update the project VERSION value
  • CHANGELOG.md - Create a new section with the version number, date, and changes made in the upcoming release
  • docs/conf.py - Update the version
  • recipe/meta.yaml - Update the package version
  1. Tag a release candidate from the version branch