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compassEffect.cxx
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1/**
2 * PANDA 3D SOFTWARE
3 * Copyright (c) Carnegie Mellon University. All rights reserved.
4 *
5 * All use of this software is subject to the terms of the revised BSD
6 * license. You should have received a copy of this license along
7 * with this source code in a file named "LICENSE."
8 *
9 * @file compassEffect.cxx
10 * @author drose
11 * @date 2002-07-16
12 */
13
14#include "compassEffect.h"
15#include "cullTraverserData.h"
16#include "config_pgraph.h"
17#include "nodePath.h"
18#include "bamReader.h"
19#include "bamWriter.h"
20#include "datagram.h"
21#include "datagramIterator.h"
22
23TypeHandle CompassEffect::_type_handle;
24
25/**
26 * Constructs a new CompassEffect object. If the reference is an empty
27 * NodePath, it means the CompassEffect is relative to the root of the scene
28 * graph; otherwise, it's relative to the indicated node. The properties
29 * bitmask specifies the set of properties that the compass node inherits from
30 * the reference instead of from its parent.
31 */
32CPT(RenderEffect) CompassEffect::
33make(const NodePath &reference, int properties) {
34 CompassEffect *effect = new CompassEffect;
35 effect->_reference = reference;
36 effect->_properties = (properties & P_all);
37 return return_new(effect);
38}
39
40/**
41 * Returns true if it is generally safe to transform this particular kind of
42 * RenderEffect by calling the xform() method, false otherwise.
43 */
45safe_to_transform() const {
46 return false;
47}
48
49/**
50 *
51 */
52void CompassEffect::
53output(std::ostream &out) const {
54 out << get_type() << ":";
55 if (_properties == 0) {
56 out << " none";
57 }
58 if ((_properties & P_pos) == P_pos) {
59 out << " xyz";
60 } else {
61 if ((_properties & P_x) != 0) {
62 out << " x";
63 }
64 if ((_properties & P_y) != 0) {
65 out << " y";
66 }
67 if ((_properties & P_z) != 0) {
68 out << " z";
69 }
70 }
71 if ((_properties & P_rot) != 0) {
72 out << " rot";
73 }
74 if ((_properties & P_scale) == P_scale) {
75 out << " scale";
76 } else {
77 if ((_properties & P_sx) != 0) {
78 out << " sx";
79 }
80 if ((_properties & P_sy) != 0) {
81 out << " sy";
82 }
83 if ((_properties & P_sz) != 0) {
84 out << " sz";
85 }
86 }
87 if (!_reference.is_empty()) {
88 out << " reference " << _reference;
89 }
90}
91
92/**
93 * Should be overridden by derived classes to return true if cull_callback()
94 * has been defined. Otherwise, returns false to indicate cull_callback()
95 * does not need to be called for this effect during the cull traversal.
96 */
98has_cull_callback() const {
99 return true;
100}
101
102/**
103 * If has_cull_callback() returns true, this function will be called during
104 * the cull traversal to perform any additional operations that should be
105 * performed at cull time. This may include additional manipulation of render
106 * state or additional visible/invisible decisions, or any other arbitrary
107 * operation.
108 *
109 * At the time this function is called, the current node's transform and state
110 * have not yet been applied to the net_transform and net_state. This
111 * callback may modify the node_transform and node_state to apply an effective
112 * change to the render state at this level.
113 */
116 CPT(TransformState) &node_transform,
117 CPT(RenderState) &) const {
118 if (_properties == 0) {
119 // Nothing to do.
120 return;
121 }
122
123 CPT(TransformState) true_net_transform = data.get_net_transform(trav);
124 CPT(TransformState) want_net_transform = true_net_transform;
125 adjust_transform(want_net_transform, node_transform, data.node());
126
127 // Now compute the transform that will convert true_net_transform to
128 // want_transform. This is inv(true_net_transform) * want_transform.
129 CPT(TransformState) compass_transform =
130 true_net_transform->invert_compose(want_net_transform);
131
132 // And modify our local node's apparent transform so that
133 // true_net_transform->compose(new_node_transform) produces the same result
134 // we would have gotten had we actually computed
135 // want_transform->compose(orig_node_transform).
136 node_transform = compass_transform->compose(node_transform);
137}
138
139/**
140 * Should be overridden by derived classes to return true if
141 * adjust_transform() has been defined, and therefore the RenderEffect has
142 * some effect on the node's apparent local and net transforms.
143 */
145has_adjust_transform() const {
146 return (_properties != 0);
147}
148
149/**
150 * Performs some operation on the node's apparent net and/or local transforms.
151 * This will only be called if has_adjust_transform() is redefined to return
152 * true.
153 *
154 * Both parameters are in/out. The original transforms will be passed in, and
155 * they may (or may not) be modified in-place by the RenderEffect.
156 */
158adjust_transform(CPT(TransformState) &net_transform,
159 CPT(TransformState) &node_transform,
160 const PandaNode *) const {
161 if (_properties == 0) {
162 // Nothing to do.
163 return;
164 }
165
166 // The reference transform: where we are acting as if we inherit from.
167 // Either the root node (identity) or the specified reference node.
168 CPT(TransformState) ref_transform;
169 if (_reference.is_empty()) {
170 ref_transform = TransformState::make_identity();
171 } else {
172 ref_transform = _reference.get_net_transform();
173 }
174
175 // Now compute the net transform we actually want to achieve. This is all
176 // of the components from the net transform we want to inherit normally from
177 // our parent, with all of the components from the ref transform we want to
178 // inherit from our reference.
179 CPT(TransformState) want_net_transform;
180 if (_properties == P_all) {
181 // If we want to steal the whole transform, that's easy.
182 want_net_transform = ref_transform;
183
184 } else {
185 // How much of the pos do we want to steal? We can always determine a
186 // transform's pos, even if it's nondecomposable.
187 LVecBase3 want_pos = net_transform->get_pos();
188 const LVecBase3 &ref_pos = ref_transform->get_pos();
189 if ((_properties & P_x) != 0) {
190 want_pos[0] = ref_pos[0];
191 }
192 if ((_properties & P_y) != 0) {
193 want_pos[1] = ref_pos[1];
194 }
195 if ((_properties & P_z) != 0) {
196 want_pos[2] = ref_pos[2];
197 }
198
199 if ((_properties & ~P_pos) == 0) {
200 // If we only want to steal the pos, that's pretty easy.
201 want_net_transform = net_transform->set_pos(want_pos);
202
203 } else if ((_properties & (P_rot | P_scale)) == (P_rot | P_scale)) {
204 // If we want to steal everything *but* the pos, also easy.
205 want_net_transform = ref_transform->set_pos(want_pos);
206
207 } else {
208 // For any other combination, we have to be able to decompose both
209 // transforms.
210 if (!net_transform->has_components() ||
211 !ref_transform->has_components()) {
212 // If we can't decompose, just do the best we can: steal everything
213 // but the pos.
214 want_net_transform = ref_transform->set_pos(want_pos);
215
216 } else {
217 // If we can decompose, then take only the components we want.
218 LQuaternion want_quat = net_transform->get_quat();
219 if ((_properties & P_rot) != 0) {
220 want_quat = ref_transform->get_quat();
221 }
222
223 LVecBase3 want_scale = net_transform->get_scale();
224 const LVecBase3 &ref_scale = ref_transform->get_scale();
225 if ((_properties & P_sx) != 0) {
226 want_scale[0] = ref_scale[0];
227 }
228 if ((_properties & P_sy) != 0) {
229 want_scale[1] = ref_scale[1];
230 }
231 if ((_properties & P_sz) != 0) {
232 want_scale[2] = ref_scale[2];
233 }
234
235 want_net_transform =
236 TransformState::make_pos_quat_scale(want_pos, want_quat, want_scale);
237 }
238 }
239 }
240
241 net_transform = want_net_transform;
242}
243
244/**
245 * Intended to be overridden by derived CompassEffect types to return a unique
246 * number indicating whether this CompassEffect is equivalent to the other
247 * one.
248 *
249 * This should return 0 if the two CompassEffect objects are equivalent, a
250 * number less than zero if this one should be sorted before the other one,
251 * and a number greater than zero otherwise.
252 *
253 * This will only be called with two CompassEffect objects whose get_type()
254 * functions return the same.
255 */
256int CompassEffect::
257compare_to_impl(const RenderEffect *other) const {
258 const CompassEffect *ta;
259 DCAST_INTO_R(ta, other, 0);
260
261 if (_properties != ta->_properties) {
262 return _properties - ta->_properties;
263 }
264 int compare = _reference.compare_to(ta->_reference);
265 if (compare != 0) {
266 return compare;
267 }
268 return 0;
269}
270
271/**
272 * Tells the BamReader how to create objects of type CompassEffect.
273 */
276 BamReader::get_factory()->register_factory(get_class_type(), make_from_bam);
277}
278
279/**
280 * Writes the contents of this object to the datagram for shipping out to a
281 * Bam file.
282 */
284write_datagram(BamWriter *manager, Datagram &dg) {
285 RenderEffect::write_datagram(manager, dg);
286 dg.add_uint16(_properties);
287
288 if (manager->get_file_minor_ver() >= 43) {
289 _reference.write_datagram(manager, dg);
290 }
291}
292
293/**
294 * Receives an array of pointers, one for each time manager->read_pointer()
295 * was called in fillin(). Returns the number of pointers processed.
296 */
298complete_pointers(TypedWritable **p_list, BamReader *manager) {
299 int pi = RenderEffect::complete_pointers(p_list, manager);
300
301 if (manager->get_file_minor_ver() >= 43) {
302 pi += _reference.complete_pointers(p_list + pi, manager);
303 }
304
305 return pi;
306}
307
308/**
309 * This function is called by the BamReader's factory when a new object of
310 * type CompassEffect is encountered in the Bam file. It should create the
311 * CompassEffect and extract its information from the file.
312 */
313TypedWritable *CompassEffect::
314make_from_bam(const FactoryParams &params) {
315 CompassEffect *effect = new CompassEffect;
316 DatagramIterator scan;
317 BamReader *manager;
318
319 parse_params(params, scan, manager);
320 effect->fillin(scan, manager);
321
322 return effect;
323}
324
325/**
326 * This internal function is called by make_from_bam to read in all of the
327 * relevant data from the BamFile for the new CompassEffect.
328 */
329void CompassEffect::
330fillin(DatagramIterator &scan, BamReader *manager) {
331 RenderEffect::fillin(scan, manager);
332 _properties = scan.get_uint16();
333
334 if (manager->get_file_minor_ver() >= 43) {
335 _reference.fillin(scan, manager);
336 }
337}
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
void parse_params(const FactoryParams &params, DatagramIterator &scan, BamReader *&manager)
Takes in a FactoryParams, passed from a WritableFactory into any TypedWritable's make function,...
Definition bamReader.I:275
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
This is the fundamental interface for extracting binary objects from a Bam file, as generated by a Ba...
Definition bamReader.h:110
int get_file_minor_ver() const
Returns the minor version number of the Bam file currently being read.
Definition bamReader.I:83
static WritableFactory * get_factory()
Returns the global WritableFactory for generating TypedWritable objects.
Definition bamReader.I:177
This is the fundamental interface for writing binary objects to a Bam file, to be extracted later by ...
Definition bamWriter.h:63
int get_file_minor_ver() const
Returns the minor version number of the Bam file currently being written.
Definition bamWriter.I:59
A CompassEffect causes a node to inherit its rotation (or pos or scale, if specified) from some other...
virtual void cull_callback(CullTraverser *trav, CullTraverserData &data, CPT(TransformState) &node_transform, CPT(RenderState) &node_state) const
If has_cull_callback() returns true, this function will be called during the cull traversal to perfor...
virtual bool has_adjust_transform() const
Should be overridden by derived classes to return true if adjust_transform() has been defined,...
virtual void adjust_transform(CPT(TransformState) &net_transform, CPT(TransformState) &node_transform, const PandaNode *node) const
Performs some operation on the node's apparent net and/or local transforms.
virtual int complete_pointers(TypedWritable **plist, BamReader *manager)
Receives an array of pointers, one for each time manager->read_pointer() was called in fillin().
virtual void write_datagram(BamWriter *manager, Datagram &dg)
Writes the contents of this object to the datagram for shipping out to a Bam file.
static void register_with_read_factory()
Tells the BamReader how to create objects of type CompassEffect.
virtual bool has_cull_callback() const
Should be overridden by derived classes to return true if cull_callback() has been defined.
virtual bool safe_to_transform() const
Returns true if it is generally safe to transform this particular kind of RenderEffect by calling the...
This collects together the pieces of data that are accumulated for each node while walking the scene ...
This object performs a depth-first traversal of the scene graph, with optional view-frustum culling,...
A class to retrieve the individual data elements previously stored in a Datagram.
uint16_t get_uint16()
Extracts an unsigned 16-bit integer.
An ordered list of data elements, formatted in memory for transmission over a socket or writing to a ...
Definition datagram.h:38
void add_uint16(uint16_t value)
Adds an unsigned 16-bit integer to the datagram.
Definition datagram.I:85
An instance of this class is passed to the Factory when requesting it to do its business and construc...
void register_factory(TypeHandle handle, CreateFunc *func, void *user_data=nullptr)
Registers a new kind of thing the Factory will be able to create.
Definition factory.I:73
NodePath is the fundamental system for disambiguating instances, and also provides a higher-level int...
Definition nodePath.h:159
void fillin(DatagramIterator &scan, BamReader *manager)
This internal function is called by make_from_bam to read in all of the relevant data from the BamFil...
bool is_empty() const
Returns true if the NodePath contains no nodes.
Definition nodePath.I:188
int complete_pointers(TypedWritable **plist, BamReader *manager)
Receives an array of pointers, one for each time manager->read_pointer() was called in fillin().
int compare_to(const NodePath &other) const
Returns a number less than zero if this NodePath sorts before the other one, greater than zero if it ...
Definition nodePath.I:1965
void write_datagram(BamWriter *manager, Datagram &dg) const
Writes the contents of this object to the datagram for shipping out to a Bam file.
A basic node of the scene graph or data graph.
Definition pandaNode.h:65
This is the base class for a number of special render effects that may be set on scene graph nodes to...
virtual void write_datagram(BamWriter *manager, Datagram &dg)
Writes the contents of this object to the datagram for shipping out to a Bam file.
This represents a unique collection of RenderAttrib objects that correspond to a particular renderabl...
Definition renderState.h:47
Indicates a coordinate-system transform on vertices.
get_quat
Returns the rotation component of the transform as a quaternion.
get_scale
Returns the scale component of the transform.
bool has_components() const
Returns true if the transform can be described by separate pos, hpr, and scale components.
get_pos
Returns the pos component of the transform.
TypeHandle is the identifier used to differentiate C++ class types.
Definition typeHandle.h:81
Base class for objects that can be written to and read from Bam files.
virtual int complete_pointers(TypedWritable **p_list, BamReader *manager)
Receives an array of pointers, one for each time manager->read_pointer() was called in fillin().
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.