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source: tags/ms_r16q4/SL/ITEM_SHADER/ValueTuple.cxx

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Last change on this file was 15429, checked in by westram, 7 years ago
fix unit-tests for stabs-format
File size: 23.0 KB

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1	// ============================================================ //
2	// //
3	// File : ValueTuple.cxx //
4	// Purpose : Abstract value usable for shading items //
5	// //
6	// Coded by Ralf Westram (coder@reallysoft.de) in June 2016 //
7	// http://www.arb-home.de/ //
8	// //
9	// ============================================================ //
10
11	#include "item_shader.h"
12
13	// --------------------------------------------------------------------------------
14
15	#ifdef UNIT_TESTS
16	#ifndef TEST_UNIT_H
17	#include <test_unit.h>
18	#endif
19
20	void TEST_shaded_values();
21	TEST_PUBLISH(TEST_shaded_values);
22	void TEST_shaded_values() {
23	// -------------------------------
24	// NoTuple (basic test):
25
26	ShadedValue undef = ValueTuple::undefined();
27	TEST_REJECT(undef->is_defined());
28	TEST_REJECT(undef->clone()->is_defined());
29	TEST_EXPECT_EQUAL(undef->inspect(), "<undef>");
30
31	// -----------------------------------
32	// LinearTuple (basic test):
33
34	{
35	ShadedValue val0 = ValueTuple::make(0.0);
36	TEST_EXPECT(val0->is_defined());
37	TEST_EXPECT(val0->clone()->is_defined());
38	TEST_EXPECT_EQUAL(val0->inspect(), "(0.000)");
39
40	ShadedValue val1 = ValueTuple::make(1.0);
41	TEST_EXPECT_EQUAL(val1->inspect(), "(1.000)");
42
43	// LinearTuple (mix):
44	ShadedValue half = val0->mix(0.50, *val1);
45	TEST_EXPECT_EQUAL(half->inspect(), "(0.500)");
46
47	TEST_EXPECT_EQUAL(val0->mix(0.25, *val1)->inspect(), "(0.750)");
48	TEST_EXPECT_EQUAL(val0->mix(0.60, *val1)->inspect(), "(0.400)");
49
50	TEST_EXPECT_EQUAL(half->mix(0.25, *val1)->inspect(), "(0.875)");
51	TEST_EXPECT_EQUAL(half->mix(0.50, *val1)->inspect(), "(0.750)");
52	TEST_EXPECT_EQUAL(half->mix(0.75, *val1)->inspect(), "(0.625)");
53
54	// mix LinearTuple with NoTuple:
55	TEST_EXPECT_EQUAL(undef->mix(INFINITY, *half)->inspect(), "(0.500)");
56	TEST_EXPECT_EQUAL(undef->mix(INFINITY, *half)->inspect(), "(0.500)");
57	TEST_EXPECT_EQUAL(half->mix(INFINITY, *undef)->inspect(), "(0.500)");
58	}
59
60	// -----------------------------------
61	// PlanarTuple (basic test):
62
63	{
64	ShadedValue pval0 = ValueTuple::make(0, 0);
65	TEST_EXPECT(pval0->is_defined());
66	TEST_EXPECT(pval0->clone()->is_defined());
67	TEST_EXPECT_EQUAL(pval0->inspect(), "(0.000,0.000)");
68
69	// PlanarTuple (mixing):
70	ShadedValue px = ValueTuple::make(1, 0);
71	ShadedValue py = ValueTuple::make(0, 1);
72
73	TEST_EXPECT_EQUAL(px->mix(INFINITY, *undef)->inspect(), "(1.000,0.000)");
74	TEST_EXPECT_EQUAL(undef->mix(INFINITY, *px)->inspect(), "(1.000,0.000)");
75	TEST_EXPECT_EQUAL(px->mix(0.5, *py)->inspect(), "(0.500,0.500)");
76
77	// PlanarTuple (partially defined):
78	ShadedValue PonlyX = ValueTuple::make(0.5, NAN);
79	ShadedValue PonlyY = ValueTuple::make(NAN, 0.5);
80
81	TEST_EXPECT(PonlyX->is_defined());
82	TEST_EXPECT(PonlyY->is_defined());
83
84	TEST_EXPECT_EQUAL(PonlyX->inspect(), "(0.500,nan)");
85	TEST_EXPECT_EQUAL(PonlyY->inspect(), "(nan,0.500)");
86
87	TEST_EXPECT_EQUAL(PonlyX->mix(INFINITY, *PonlyY)->inspect(), "(0.500,0.500)"); // mixed without using ratio
88	TEST_EXPECT_EQUAL(PonlyX->mix(0.5, *px)->inspect(), "(0.750,0.000)");
89	TEST_EXPECT_EQUAL(PonlyY->mix(0.5, *py)->inspect(), "(0.000,0.750)");
90	TEST_EXPECT_EQUAL(PonlyX->mix(0.5, *py)->inspect(), "(0.250,1.000)");
91	TEST_EXPECT_EQUAL(PonlyY->mix(0.5, *px)->inspect(), "(1.000,0.250)");
92	TEST_EXPECT_EQUAL(PonlyY->mix(0.25,*px)->inspect(), "(1.000,0.125)"); // ratio only affects y-coord (x-coord is undef in PonlyY!)
93	TEST_EXPECT_EQUAL(PonlyY->mix(0.75,*px)->inspect(), "(1.000,0.375)");
94	}
95
96	// ------------------------------------
97	// SpatialTuple (basic test):
98
99	{
100	ShadedValue sval0 = ValueTuple::make(0, 0, 0);
101	TEST_EXPECT(sval0->is_defined());
102	TEST_EXPECT(sval0->clone()->is_defined());
103	TEST_EXPECT_EQUAL(sval0->inspect(), "(0.000,0.000,0.000)");
104
105	// SpatialTuple (mixing):
106	ShadedValue px = ValueTuple::make(1, 0, 0);
107	ShadedValue py = ValueTuple::make(0, 1, 0);
108	ShadedValue pz = ValueTuple::make(0, 0, 1);
109
110	TEST_EXPECT_EQUAL(px->mix(INFINITY, *undef)->inspect(), "(1.000,0.000,0.000)");
111	TEST_EXPECT_EQUAL(undef->mix(INFINITY, *px)->inspect(), "(1.000,0.000,0.000)");
112	TEST_EXPECT_EQUAL(px->mix(0.5, *py)->inspect(), "(0.500,0.500,0.000)");
113	TEST_EXPECT_EQUAL(px->mix(0.5, py)->mix(2/3.0, pz)->inspect(), "(0.333,0.333,0.333)");
114
115	// SpatialTuple (partially defined):
116	ShadedValue PonlyX = ValueTuple::make(0.5, NAN, NAN);
117	ShadedValue PonlyY = ValueTuple::make(NAN, 0.5, NAN);
118	ShadedValue PonlyZ = ValueTuple::make(NAN, NAN, 0.5);
119
120	TEST_EXPECT(PonlyX->is_defined());
121	TEST_EXPECT(PonlyY->is_defined());
122	TEST_EXPECT(PonlyZ->is_defined());
123
124	TEST_EXPECT_EQUAL(PonlyX->inspect(), "(0.500,nan,nan)");
125	TEST_EXPECT_EQUAL(PonlyY->inspect(), "(nan,0.500,nan)");
126	TEST_EXPECT_EQUAL(PonlyZ->inspect(), "(nan,nan,0.500)");
127
128	ShadedValue pxy = PonlyX->mix(INFINITY, *PonlyY); // mixed without using ratio
129	ShadedValue pyz = PonlyY->mix(INFINITY, *PonlyZ);
130	ShadedValue pzx = PonlyZ->mix(INFINITY, *PonlyX);
131
132	TEST_EXPECT_EQUAL(pxy->inspect(), "(0.500,0.500,nan)");
133	TEST_EXPECT_EQUAL(pyz->inspect(), "(nan,0.500,0.500)");
134	TEST_EXPECT_EQUAL(pzx->inspect(), "(0.500,nan,0.500)");
135
136	TEST_EXPECT_EQUAL(pxy->mix(INFINITY, *PonlyZ)->inspect(), "(0.500,0.500,0.500)");
137	TEST_EXPECT_EQUAL(pyz->mix(INFINITY, *PonlyX)->inspect(), "(0.500,0.500,0.500)");
138	TEST_EXPECT_EQUAL(pzx->mix(INFINITY, *PonlyY)->inspect(), "(0.500,0.500,0.500)");
139
140	TEST_EXPECT_EQUAL(pxy->mix(0.5, *pyz)->inspect(), "(0.500,0.500,0.500)");
141	TEST_EXPECT_EQUAL(pyz->mix(0.5, *pzx)->inspect(), "(0.500,0.500,0.500)");
142	TEST_EXPECT_EQUAL(pzx->mix(0.5, *pxy)->inspect(), "(0.500,0.500,0.500)");
143
144	TEST_EXPECT_EQUAL(pxy->mix(0.5, *px)->inspect(), "(0.750,0.250,0.000)");
145	TEST_EXPECT_EQUAL(pyz->mix(0.5, *px)->inspect(), "(1.000,0.250,0.250)");
146	TEST_EXPECT_EQUAL(pzx->mix(0.5, *px)->inspect(), "(0.750,0.000,0.250)");
147
148	TEST_EXPECT_EQUAL(pxy->mix(0.5, *py)->inspect(), "(0.250,0.750,0.000)");
149	TEST_EXPECT_EQUAL(pyz->mix(0.5, *py)->inspect(), "(0.000,0.750,0.250)");
150	TEST_EXPECT_EQUAL(pzx->mix(0.5, *py)->inspect(), "(0.250,1.000,0.250)");
151
152	TEST_EXPECT_EQUAL(pxy->mix(0.5, *pz)->inspect(), "(0.250,0.250,1.000)");
153	TEST_EXPECT_EQUAL(pyz->mix(0.5, *pz)->inspect(), "(0.000,0.250,0.750)");
154	TEST_EXPECT_EQUAL(pzx->mix(0.5, *pz)->inspect(), "(0.250,0.000,0.750)");
155
156	TEST_EXPECT_EQUAL(pxy->mix(0.25, *pz)->inspect(), "(0.125,0.125,1.000)"); // ratio does not affect z-coord (only defined in pz)
157	TEST_EXPECT_EQUAL(pyz->mix(0.25, *pz)->inspect(), "(0.000,0.125,0.875)");
158	TEST_EXPECT_EQUAL(pzx->mix(0.25, *pz)->inspect(), "(0.125,0.000,0.875)");
159	}
160
161	// --------------------------------------
162	// test NAN leads to undefined:
163
164	ShadedValue novalue = ValueTuple::make(NAN);
165	TEST_REJECT(novalue->is_defined());
166
167	ShadedValue noValuePair = ValueTuple::make(NAN, NAN);
168	TEST_REJECT(noValuePair->is_defined());
169
170	ShadedValue noValueTriple = ValueTuple::make(NAN, NAN, NAN);
171	TEST_REJECT(noValueTriple->is_defined());
172	}
173
174	void TEST_value_color_mapping() {
175	// tests mapping from ShadedValue into range_offset (with different phasing)
176
177	const float NOSHIFT = 0.0;
178
179	Phaser dontPhase;
180
181	Phaser halfPhase (0.5, false, NOSHIFT, NOSHIFT);
182	Phaser halfPhasePreShiftPos(0.5, false, +0.25, NOSHIFT);
183	Phaser halfPhasePreShiftNeg(0.5, false, +0.75, NOSHIFT); // +75% should act like -25%
184	Phaser halfPhasePstShiftPos(0.5, false, NOSHIFT, +0.25);
185	Phaser halfPhasePstShiftNeg(0.5, false, NOSHIFT, +0.75);
186
187	Phaser twoPhase (2.0, false, NOSHIFT, NOSHIFT);
188	Phaser alt3Phase(3.0, true, NOSHIFT, NOSHIFT);
189	Phaser alt4Phase(4.0, true, NOSHIFT, NOSHIFT);
190
191	{
192	ShadedValue val0 = ValueTuple::make(0.0);
193	ShadedValue half = ValueTuple::make(0.5);
194	ShadedValue val1 = ValueTuple::make(1.0);
195
196	TEST_EXPECT_EQUAL(val0->range_offset(dontPhase), 0);
197	TEST_EXPECT_EQUAL(val0->range_offset(halfPhase), 0);
198	TEST_EXPECT_EQUAL(val0->range_offset(halfPhasePreShiftPos), AW_RANGE_COLORS*3/8);
199	TEST_EXPECT_EQUAL(val0->range_offset(halfPhasePreShiftNeg), AW_RANGE_COLORS*1/8);
200	TEST_EXPECT_EQUAL(val0->range_offset(halfPhasePstShiftPos), AW_RANGE_COLORS*1/4);
201	TEST_EXPECT_EQUAL(val0->range_offset(halfPhasePstShiftNeg), AW_RANGE_COLORS*3/4);
202
203	TEST_EXPECT_EQUAL(val1->range_offset(dontPhase), AW_RANGE_COLORS-1);
204	TEST_EXPECT_EQUAL(val1->range_offset(halfPhase), AW_RANGE_COLORS/2);
205	TEST_EXPECT_EQUAL(val1->range_offset(halfPhasePreShiftPos), AW_RANGE_COLORS*3/8);
206	TEST_EXPECT_EQUAL(val1->range_offset(halfPhasePreShiftNeg), AW_RANGE_COLORS*1/8);
207	TEST_EXPECT_EQUAL(val1->range_offset(halfPhasePstShiftPos), AW_RANGE_COLORS*3/4);
208	TEST_EXPECT_EQUAL(val1->range_offset(halfPhasePstShiftNeg), AW_RANGE_COLORS*1/4);
209
210	TEST_EXPECT_EQUAL(half->range_offset(dontPhase), AW_RANGE_COLORS/2);
211	TEST_EXPECT_EQUAL(half->range_offset(twoPhase), AW_RANGE_COLORS-1);
212	TEST_EXPECT_EQUAL(half->range_offset(alt3Phase), AW_RANGE_COLORS/2);
213	TEST_EXPECT_EQUAL(half->range_offset(alt4Phase), 0);
214	TEST_EXPECT_EQUAL(half->range_offset(halfPhase), AW_RANGE_COLORS/4);
215	TEST_EXPECT_EQUAL(half->range_offset(halfPhasePreShiftPos), AW_RANGE_COLORS*1/8);
216	TEST_EXPECT_EQUAL(half->range_offset(halfPhasePreShiftNeg), AW_RANGE_COLORS*3/8);
217	TEST_EXPECT_EQUAL(half->range_offset(halfPhasePstShiftPos), AW_RANGE_COLORS*2/4);
218	TEST_EXPECT_EQUAL(half->range_offset(halfPhasePstShiftNeg), AW_RANGE_COLORS*4/4 - 1);
219	}
220
221	#define PQS(c) (AW_PLANAR_COLORS*(c)/4)
222	#define PLANAR_QUARTER_SHIFT(x,y) (PQS(x)*AW_PLANAR_COLORS + PQS(y))
223
224	#if 0
225	// document results of PLANAR_QUARTER_SHIFT:
226	#define DOCQS(x,y,res) TEST_EXPECT_EQUAL(PLANAR_QUARTER_SHIFT(x,y), res)
227
228	DOCQS(0,0,0); DOCQS(1,0,1024); DOCQS(2,0,2048); DOCQS(3,0,3072); DOCQS(4,0,4096);
229	DOCQS(0,1,16); DOCQS(1,1,1040); DOCQS(2,1,2064); DOCQS(3,1,3088); DOCQS(4,1,4112);
230	DOCQS(0,2,32); DOCQS(1,2,1056); DOCQS(2,2,2080); DOCQS(3,2,3104); DOCQS(4,2,4128);
231	DOCQS(0,3,48); DOCQS(1,3,1072); DOCQS(2,3,2096); DOCQS(3,3,3120); DOCQS(4,3,4144);
232	DOCQS(0,4,64); DOCQS(1,4,1088); DOCQS(2,4,2112); DOCQS(3,4,3136); DOCQS(4,4,4160);
233
234	#endif
235
236	{
237	ShadedValue pval0 = ValueTuple::make(0, 0);
238	ShadedValue px = ValueTuple::make(1, 0);
239	ShadedValue py = ValueTuple::make(0, 1);
240	ShadedValue PonlyX = ValueTuple::make(0.5, NAN);
241	ShadedValue PonlyY = ValueTuple::make(NAN, 0.5);
242
243	TEST_EXPECT_EQUAL(pval0->range_offset(dontPhase), 0);
244	TEST_EXPECT_EQUAL(pval0->range_offset(twoPhase), 0);
245	TEST_EXPECT_EQUAL(pval0->range_offset(alt3Phase), 0);
246	TEST_EXPECT_EQUAL(pval0->range_offset(alt4Phase), 0);
247
248	TEST_EXPECT_EQUAL(px->range_offset(dontPhase), (AW_PLANAR_COLORS-1)*AW_PLANAR_COLORS);
249	TEST_EXPECT_EQUAL(py->range_offset(dontPhase), AW_PLANAR_COLORS-1);
250
251	// partly undefined values produce a valid range-offset:
252	TEST_EXPECT_EQUAL(PonlyX->range_offset(dontPhase), (AW_PLANAR_COLORS*AW_PLANAR_COLORS)/2);
253	TEST_EXPECT_EQUAL(PonlyY->range_offset(dontPhase), AW_PLANAR_COLORS/2);
254
255	// test 2-dim-phase-scale and -shift:
256	TEST_EXPECT_EQUAL(px->range_offset(twoPhase), PLANAR_QUARTER_SHIFT(4, 0) - AW_PLANAR_COLORS); // -1*AW_PLANAR_COLORS due to limited range!
257	TEST_EXPECT_EQUAL(px->range_offset(halfPhase), PLANAR_QUARTER_SHIFT(2, 0));
258	TEST_EXPECT_EQUAL(px->range_offset(halfPhasePreShiftPos), PLANAR_QUARTER_SHIFT(3, 3)/2);
259	TEST_EXPECT_EQUAL(px->range_offset(halfPhasePreShiftNeg), PLANAR_QUARTER_SHIFT(1, 1)/2);
260	TEST_EXPECT_EQUAL(px->range_offset(halfPhasePstShiftPos), PLANAR_QUARTER_SHIFT(3, 1));
261	TEST_EXPECT_EQUAL(px->range_offset(halfPhasePstShiftNeg), PLANAR_QUARTER_SHIFT(1, 3));
262
263	TEST_EXPECT_EQUAL(py->range_offset(twoPhase), PLANAR_QUARTER_SHIFT(0, 4) - 1); // -1 due to limited range!
264	TEST_EXPECT_EQUAL(py->range_offset(halfPhase), PLANAR_QUARTER_SHIFT(0, 2));
265	TEST_EXPECT_EQUAL(py->range_offset(halfPhasePreShiftPos), PLANAR_QUARTER_SHIFT(3, 3)/2);
266	TEST_EXPECT_EQUAL(py->range_offset(halfPhasePreShiftNeg), PLANAR_QUARTER_SHIFT(1, 1)/2);
267	TEST_EXPECT_EQUAL(py->range_offset(halfPhasePstShiftPos), PLANAR_QUARTER_SHIFT(1, 3));
268	TEST_EXPECT_EQUAL(py->range_offset(halfPhasePstShiftNeg), PLANAR_QUARTER_SHIFT(3, 1));
269
270	// test 2-dim-phase-scale and -shift (nan-content):
271	TEST_EXPECT_EQUAL(PonlyX->range_offset(twoPhase), PLANAR_QUARTER_SHIFT(4,-4)); // = PLANAR_QUARTER_SHIFT(4, 0) - AW_PLANAR_COLORS
272	TEST_EXPECT_EQUAL(PonlyX->range_offset(halfPhase), PLANAR_QUARTER_SHIFT(1, 0));
273	TEST_EXPECT_EQUAL(PonlyX->range_offset(halfPhasePreShiftPos), PLANAR_QUARTER_SHIFT(1, 0)/2);
274	TEST_EXPECT_EQUAL(PonlyX->range_offset(halfPhasePreShiftNeg), PLANAR_QUARTER_SHIFT(3, 0)/2);
275	TEST_EXPECT_EQUAL(PonlyX->range_offset(halfPhasePstShiftPos), PLANAR_QUARTER_SHIFT(2, 0));
276	TEST_EXPECT_EQUAL(PonlyX->range_offset(halfPhasePstShiftNeg), PLANAR_QUARTER_SHIFT(4,-4));
277
278	TEST_EXPECT_EQUAL(PonlyY->range_offset(twoPhase), PLANAR_QUARTER_SHIFT(0, 4) - 1);
279	TEST_EXPECT_EQUAL(PonlyY->range_offset(halfPhase), PLANAR_QUARTER_SHIFT(0, 1));
280	TEST_EXPECT_EQUAL(PonlyY->range_offset(halfPhasePreShiftPos), PLANAR_QUARTER_SHIFT(0, 1)/2);
281	TEST_EXPECT_EQUAL(PonlyY->range_offset(halfPhasePreShiftNeg), PLANAR_QUARTER_SHIFT(0, 3)/2);
282	TEST_EXPECT_EQUAL(PonlyY->range_offset(halfPhasePstShiftPos), PLANAR_QUARTER_SHIFT(0, 2));
283	TEST_EXPECT_EQUAL(PonlyY->range_offset(halfPhasePstShiftNeg), PLANAR_QUARTER_SHIFT(0, 4) - 1);
284	}
285
286	{
287	ShadedValue sval0 = ValueTuple::make(0, 0, 0);
288
289	ShadedValue px = ValueTuple::make(1, 0, 0);
290	ShadedValue py = ValueTuple::make(0, 1, 0);
291	ShadedValue pz = ValueTuple::make(0, 0, 1);
292
293	ShadedValue PonlyX = ValueTuple::make(0.5, NAN, NAN);
294	ShadedValue PonlyY = ValueTuple::make(NAN, 0.5, NAN);
295	ShadedValue PonlyZ = ValueTuple::make(NAN, NAN, 0.5);
296
297	TEST_EXPECT_EQUAL(sval0->range_offset(dontPhase), 0);
298
299	TEST_EXPECT_EQUAL(px->range_offset(dontPhase), (AW_SPATIAL_COLORS-1)AW_SPATIAL_COLORSAW_SPATIAL_COLORS);
300	TEST_EXPECT_EQUAL(py->range_offset(dontPhase), (AW_SPATIAL_COLORS-1)*AW_SPATIAL_COLORS);
301	TEST_EXPECT_EQUAL(pz->range_offset(dontPhase), AW_SPATIAL_COLORS-1);
302
303	// partly undefined values produce a valid range-offset:
304	TEST_EXPECT_EQUAL(PonlyX->range_offset(dontPhase), (AW_SPATIAL_COLORSAW_SPATIAL_COLORSAW_SPATIAL_COLORS)/2);
305	TEST_EXPECT_EQUAL(PonlyY->range_offset(dontPhase), (AW_SPATIAL_COLORS*AW_SPATIAL_COLORS)/2);
306	TEST_EXPECT_EQUAL(PonlyZ->range_offset(dontPhase), AW_SPATIAL_COLORS/2);
307
308	// skipping tests for phasing SpatialTuple (hardly can understand test-results for PlanarTuple)
309	}
310	}
311	TEST_PUBLISH(TEST_value_color_mapping);
312
313	#endif // UNIT_TESTS
314
315	// --------------------------------------------------------------------------------
316
317	inline int CHECKED_RANGE_OFFSET(int off) {
318	is_assert(off>=0 && off<AW_RANGE_COLORS);
319	return off;
320	}
321
322	template<int RANGE_SIZE>
323	inline int fixed_range_offset(float val) {
324	is_assert(val>=0.0 && val<=1.0); // val is output of Phaser
325	int off = val>=1.0 ? RANGE_SIZE-1 : val*RANGE_SIZE;
326	is_assert(off>=0 && off<RANGE_SIZE);
327	return off;
328	}
329
330	// --------------------------------------------------------------------------------
331
332	#ifdef UNIT_TESTS
333	#ifndef TEST_UNIT_H
334	#include <test_unit.h>
335	#endif
336
337	void TEST_range_mapping() {
338	TEST_EXPECT_EQUAL(fixed_range_offset<4>(1.00), 3);
339	TEST_EXPECT_EQUAL(fixed_range_offset<4>(0.75), 3);
340	TEST_EXPECT_EQUAL(fixed_range_offset<4>(0.74), 2);
341	TEST_EXPECT_EQUAL(fixed_range_offset<4>(0.50), 2);
342	TEST_EXPECT_EQUAL(fixed_range_offset<4>(0.49), 1);
343	TEST_EXPECT_EQUAL(fixed_range_offset<4>(0.25), 1);
344	TEST_EXPECT_EQUAL(fixed_range_offset<4>(0.24), 0);
345	TEST_EXPECT_EQUAL(fixed_range_offset<4>(0.00), 0);
346
347	TEST_EXPECT_EQUAL(fixed_range_offset<3>(1.0), 2);
348	TEST_EXPECT_EQUAL(fixed_range_offset<3>(0.67), 2);
349	TEST_EXPECT_EQUAL(fixed_range_offset<3>(0.66), 1);
350	TEST_EXPECT_EQUAL(fixed_range_offset<3>(0.34), 1);
351	TEST_EXPECT_EQUAL(fixed_range_offset<3>(0.33), 0);
352	TEST_EXPECT_EQUAL(fixed_range_offset<3>(0.0), 0);
353	}
354
355	#endif // UNIT_TESTS
356
357	// --------------------------------------------------------------------------------
358
359
360	class NoTuple: public ValueTuple {
361	public:
362	NoTuple() {}
363	~NoTuple() OVERRIDE {}
364
365	bool is_defined() const OVERRIDE { return false; }
366	ShadedValue clone() const OVERRIDE { return new NoTuple; }
367	int range_offset(const Phaser&) const OVERRIDE { is_assert(0); return -9999999; } // defines no range offset
368
369	#if defined(UNIT_TESTS)
370	const char *inspect() const OVERRIDE { return "<undef>"; }
371	#endif
372
373	// mixer:
374	ShadedValue reverse_mix(float, const LinearTuple& other) const OVERRIDE;
375	ShadedValue reverse_mix(float, const PlanarTuple& other) const OVERRIDE;
376	ShadedValue reverse_mix(float, const SpatialTuple& other) const OVERRIDE;
377	ShadedValue mix(float, const ValueTuple& other) const OVERRIDE { return other.clone(); }
378	};
379
380	class LinearTuple: public ValueTuple {
381	float val;
382
383	public:
384	LinearTuple(float val_) : val(val_) {
385	is_assert(!is_nan_or_inf(val));
386	}
387	~LinearTuple() OVERRIDE {}
388
389	bool is_defined() const OVERRIDE { return true; }
390	ShadedValue clone() const OVERRIDE { return new LinearTuple(val); }
391	int range_offset(const Phaser& phaser) const OVERRIDE { // returns int-offset into range [0 .. AW_RANGE_COLORS[
392	return CHECKED_RANGE_OFFSET(fixed_range_offset<AW_RANGE_COLORS>(phaser.rephase(val)));
393	}
394
395	#if defined(UNIT_TESTS)
396	const char *inspect() const OVERRIDE {
397	static SmartCharPtr buf;
398	buf = GBS_global_string_copy("(%.3f)", val);
399	return &*buf;
400	}
401	#endif
402
403	// mixer:
404	ShadedValue reverse_mix(float other_ratio, const LinearTuple& other) const OVERRIDE {
405	return new LinearTuple(other_ratioother.val + (1-other_ratio)val);
406	}
407	ShadedValue mix(float my_ratio, const ValueTuple& other) const OVERRIDE { return other.reverse_mix(my_ratio, *this); }
408	};
409
410	inline float mix_floats(float me, float my_ratio, float other) {
411	if (is_nan(me)) return other;
412	if (is_nan(other)) return me;
413	return my_ratiome + (1-my_ratio)other;
414	}
415
416	class PlanarTuple: public ValueTuple {
417	float val1, val2;
418
419	public:
420	PlanarTuple(float val1_, float val2_) :
421	val1(val1_),
422	val2(val2_)
423	{
424	is_assert(!is_inf(val1));
425	is_assert(!is_inf(val2));
426	is_assert(!(is_nan(val1) && is_nan(val2))); // only NAN is unwanted
427	}
428	~PlanarTuple() OVERRIDE {}
429
430	bool is_defined() const OVERRIDE { return true; }
431	ShadedValue clone() const OVERRIDE { return new PlanarTuple(val1, val2); }
432	int range_offset(const Phaser& phaser) const OVERRIDE { // returns int-offset into range [0 .. AW_RANGE_COLORS[
433	int c1 = is_nan(val1) ? 0 : fixed_range_offset<AW_PLANAR_COLORS>(phaser.rephase(val1));
434	int c2 = is_nan(val2) ? 0 : fixed_range_offset<AW_PLANAR_COLORS>(phaser.rephase(val2));
435	return CHECKED_RANGE_OFFSET(c1*AW_PLANAR_COLORS + c2);
436	}
437
438	#if defined(UNIT_TESTS)
439	const char *inspect() const OVERRIDE {
440	static SmartCharPtr buf;
441	buf = GBS_global_string_copy("(%.3f,%.3f)", val1, val2);
442	return &*buf;
443	}
444	#endif
445
446	// mixer:
447	ShadedValue reverse_mix(float other_ratio, const PlanarTuple& other) const OVERRIDE {
448	return new PlanarTuple(mix_floats(other.val1, other_ratio, val1),
449	mix_floats(other.val2, other_ratio, val2));
450	}
451	ShadedValue mix(float my_ratio, const ValueTuple& other) const OVERRIDE { return other.reverse_mix(my_ratio, *this); }
452	};
453
454	class SpatialTuple: public ValueTuple {
455	float val1, val2, val3;
456
457	public:
458	SpatialTuple(float val1_, float val2_, float val3_) :
459	val1(val1_),
460	val2(val2_),
461	val3(val3_)
462	{
463	is_assert(!is_inf(val1));
464	is_assert(!is_inf(val2));
465	is_assert(!is_inf(val3));
466	is_assert(!(is_nan(val1) && is_nan(val2) && is_nan(val3))); // only NAN is unwanted
467	}
468	~SpatialTuple() OVERRIDE {}
469
470	bool is_defined() const OVERRIDE { return true; }
471	ShadedValue clone() const OVERRIDE { return new SpatialTuple(val1, val2, val3); }
472	int range_offset(const Phaser& phaser) const OVERRIDE { // returns int-offset into range [0 .. AW_RANGE_COLORS[
473	int c1 = is_nan(val1) ? 0 : fixed_range_offset<AW_SPATIAL_COLORS>(phaser.rephase(val1));
474	int c2 = is_nan(val2) ? 0 : fixed_range_offset<AW_SPATIAL_COLORS>(phaser.rephase(val2));
475	int c3 = is_nan(val3) ? 0 : fixed_range_offset<AW_SPATIAL_COLORS>(phaser.rephase(val3));
476	return CHECKED_RANGE_OFFSET((c1AW_SPATIAL_COLORS + c2)AW_SPATIAL_COLORS + c3);
477	}
478
479	#if defined(UNIT_TESTS)
480	const char *inspect() const OVERRIDE {
481	static SmartCharPtr buf;
482	buf = GBS_global_string_copy("(%.3f,%.3f,%.3f)", val1, val2, val3);
483	return &*buf;
484	}
485	#endif
486
487	// mixer:
488	ShadedValue reverse_mix(float other_ratio, const SpatialTuple& other) const OVERRIDE {
489	return new SpatialTuple(mix_floats(other.val1, other_ratio, val1),
490	mix_floats(other.val2, other_ratio, val2),
491	mix_floats(other.val3, other_ratio, val3));
492	}
493	ShadedValue mix(float my_ratio, const ValueTuple& other) const OVERRIDE { return other.reverse_mix(my_ratio, *this); }
494	};
495
496
497	// ---------------------------------
498	// mixer (late definition)
499
500	ShadedValue NoTuple::reverse_mix(float, const LinearTuple& other) const { return other.clone(); }
501	ShadedValue NoTuple::reverse_mix(float, const PlanarTuple& other) const { return other.clone(); }
502	ShadedValue NoTuple::reverse_mix(float, const SpatialTuple& other) const { return other.clone(); }
503
504	// -----------------
505	// factory
506
507	ShadedValue ValueTuple::undefined() {
508	return new NoTuple;
509	}
510	ShadedValue ValueTuple::make(float f) {
511	return is_nan(f) ? undefined() : new LinearTuple(f);
512	}
513	ShadedValue ValueTuple::make(float f1, float f2) {
514	return (is_nan(f1) && is_nan(f2)) ? undefined() : new PlanarTuple(f1, f2);
515	}
516	ShadedValue ValueTuple::make(float f1, float f2, float f3) {
517	return (is_nan(f1) && is_nan(f2) && is_nan(f3)) ? undefined() : new SpatialTuple(f1, f2, f3);
518	}
519

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