2 * add the hkl3d library (anti-collision)
3 * add a 3D view to ghkl
4 * add the diffabs (SOLEIL) 3D model.
5 * add a --disable-hkl3d flag to avoid hkl3d library compilation.
6 * replace the --enable-ghkl with a --disable-gui
7 * add the E4CH (eulerian 4 circles horizontal) geometry.
8 * add the MARS beamline (SOLEIL) eulerian 4 circles vertical geometry.
9 * use the c-tap-hardness library for the test suite.
12 * add the SOLEIL SIXS MED2+2 diffractometer
13 - mode: hkl reflectivity.
14 * add the SOLEIL MARS diffractometer
15 * add the PETRA3 P09 EH2 diffractometer
17 - add modes : hkl psi_constant_horizontal, constant_mu_horizontal
19 - add the constant_incidence mode
20 * add the sphinx documentation
23 * remove the usage.c file to avoid a GPL2-GPL3+ incompatibility
24 * update the documentation
25 * fix warning catched by clang
28 * add the ghkl manpage and .desktop file
29 * fix the ghkl quit menuitem bugs
32 * fix a few ghkl bugs (.ui files installation)
33 * add a --enable-ghkl=[yes,no] flag to allow compiling the gui interface
34 * do not forgot to link ghkl against gsl.
35 * display by default the preference panel of ghkl.
39 * add the autotools buildsystem and remove all other systems.
40 * add a GUI ghkl for testing purpose based on gtkmm.
41 * add the GNU info doc
42 * add the gtk-doc to document the api (work in progress)
43 * new structure for the HklDetector (prepare for 2D detectors)
44 * HklGeometryConfig shared between all equivalent HklGeometries.
45 * fix for 64 bits computers runtime error.
46 * add the HklError class to report calculation errors (not yet used)
47 * new way to set the UB matrix of a sample (hkl_sample_set_UB).
50 - mode reflectivity (mu = gamma)
54 * add the psi_constant mode to the e4cv, e6c, k4cv and k6c geometries. (thanks teresa)
55 * upgrade the user guide to explain how to add a mode.
56 * the horizontal modes are also valid if omega = +-PI. (e6c, k6c)
57 * remove geometries with an invalid range from the list of solutions.
61 * Rewrote from scratch in C with the GSL library.
62 - now most of pseudo axes modes are numeric.
63 So a 6 circles mode is now a real 6 circles mode.
65 - PseudoAxisEngine "hkl": "h", "k", "l"
67 * Mode "constant_omega"
70 * Mode "double_diffraction"
71 - PseudoAxisEngine "psi": "psi"
74 - PseudoAxisEngine "hkl": "h", "k", "l"
76 * Mode "constant_omega"
79 * Mode "double_diffraction"
80 - PseudoAxisEngine "psi": "psi"
82 - PseudoAxisEngien "eulerians": "omega", "chi", "phi"
85 - PseudoAxisEngine "hkl": "h", "k", "l"
86 * Mode "bissector_vertical"
87 * Mode "constant_omega_vertical"
88 * Mode "constant_chi_vertical"
89 * Mode "constant_phi_vertical"
90 * Mode "double_diffraction_vertical"
91 * Mode "lifting_detector"
92 * Mode "bissector_horizontal"
93 * Mode "double_diffraction_horizontal"
94 - PseudoAxisEngine "psi": "psi"
97 - PseudoAxisEngine "hkl": "h", "k", "l"
98 * Mode "bissector_vertical"
99 * Mode "constant_omega_vertical"
100 * Mode "constant_chi_vertical"
101 * Mode "constant_phi_vertical"
102 * Mode "double_diffraction_vertical"
103 * Mode "lifting_detector"
104 * Mode "bissector_horizontal"
105 * Mode "constant_phi_horizontal"
106 * Mode "constant_kphi_horizontal"
107 * Mode "double_diffraction_horizontal"
108 - PseudoAxisEngine "psi": "psi"
110 - PseudoAxisEngien "eulerians": "omega", "chi", "phi"
115 * Refactoring of the sample part.
116 - It is now possible to create different kind of samples easily.
120 - Eulerian 6 Circles.
121 - kappa 4 Circles Vertical.
123 * Refactoring of the PseudoAxe part.
124 - Derived PseudoAxe can be created from an already existing PseudoAxe if the Geometry conversion exist.
125 - Better related PseudoAxes (ex Eulerians on a Kappa)
126 - The PseudoAxe is just a interface, computation is done by the PseudoAxeEngine.
127 - Eulerian 4 Circles Vertical
128 - "th2th" : derived from the twoC
129 - "q2th" : derived from the twoC
130 - "q" : derived from the twoC
131 - kappa 4 Circles Vertical
132 - "omega", "chi", "phi" : eulerian 4 circles Vertical pseudoAxes.
133 - "th2th" : derived from the twoC
134 - "q2th" : derived from the twoC
135 - "q" : derived from the twoC
136 - "psi" : derived from the Eulerian 4 Circlers Vertical.
137 - Eulerian 6 Circles:
139 - "q" : 2 * tau * sin(theta) / lambda
140 - "psi" : derived from the Eulerian 4 Circlers Vertical.
142 - "omega", "chi", "phi" : derived from the Kappa 4 Circles Vertical.
143 - "tth" derived from the Eulerian6C.
144 - "q" derived from the Eulerian6C.
145 - "psi" : derived from the Eulerian 4 Circlers Vertical.
147 * Refactoring of the Modes.
148 - Derived Mode can be created from an already existing Mode if the Geometry conversion exist.
149 - all Eulerian 4 Circles on the kappa4C, Eulerian6c and Kappa6C diffractometers.
156 - Eulerian 4 Circles Vertical.
161 - "th2th": omega - 2theta (domega = d2theta / 2)
162 - "q2th" : omega - 2theta (domega = d2theta / 2) but q2th = 2 tau sin(theta) / lambda
163 - "q" : 2 * tau * sin(theta) / lambda
164 - Eulerian 4 Circles Vertical
165 - "th2th": omega - 2theta (domega = d2theta / 2)
166 - "q2th" : omega - 2theta (domega = d2theta / 2) but q2th = 2 tau sin(theta) / lambda
167 - "q" : 2 * tau * sin(theta) / lambda
168 - "psi" : Rotation of the sample oaround the Q vector.
172 - "symetric" (omega = theta, 2theta = 2 * theta)
173 - "fix incidence" (omega = free, 2theta = 2 * theta)
174 - Eulerian 4 circles:
181 - all Eulerian 4 Circles modes.