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Revision 21 - (hide annotations) (download) (as text)
Thu Dec 25 01:09:08 2003 UTC (20 years, 3 months ago) by schoenebeck
File MIME type: text/x-c++hdr
File size: 41254 byte(s)
* gig.h, gig.cpp:
  changes in class 'Sample':
  - fixed loop attributes which reflected wrong values
  - attributes 'LoopStart' and 'LoopEnd' are now measured in sample points
    instead of byte offset
  - renamed misleading attribute name 'MIDIPitchFraction' to 'FineTune'
  - added attribute 'LoopSize'
  changes in class 'File':
  - added method GetInstrument(uint index)

1 schoenebeck 2 /***************************************************************************
2     * *
3     * libgig - C++ cross-platform Gigasampler format file loader library *
4     * *
5     * Copyright (C) 2003 by Christian Schoenebeck *
6     * <cuse@users.sourceforge.net> *
7     * *
8     * This library is free software; you can redistribute it and/or modify *
9     * it under the terms of the GNU General Public License as published by *
10     * the Free Software Foundation; either version 2 of the License, or *
11     * (at your option) any later version. *
12     * *
13     * This library is distributed in the hope that it will be useful, *
14     * but WITHOUT ANY WARRANTY; without even the implied warranty of *
15     * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
16     * GNU General Public License for more details. *
17     * *
18     * You should have received a copy of the GNU General Public License *
19     * along with this library; if not, write to the Free Software *
20     * Foundation, Inc., 59 Temple Place, Suite 330, Boston, *
21     * MA 02111-1307 USA *
22     ***************************************************************************/
23    
24     #ifndef __GIG_H__
25     #define __GIG_H__
26    
27     #include "DLS.h"
28    
29     #include <math.h>
30     #include <string.h>
31    
32     /// Initial size of the sample buffer which is used for decompression of
33     /// compressed sample wave streams - this value should always be bigger than
34     /// the biggest sample piece expected to be read by the sampler engine,
35     /// otherwise the buffer size will be raised at runtime and thus the buffer
36     /// reallocated which is time consuming and unefficient.
37     #define INITIAL_SAMPLE_BUFFER_SIZE 512000 // 512 kB
38    
39 schoenebeck 11 #if WORDS_BIGENDIAN
40 schoenebeck 2 # define LIST_TYPE_3PRG 0x33707267
41     # define LIST_TYPE_3EWL 0x3365776C
42     # define CHUNK_ID_SMPL 0x736D706C
43     # define CHUNK_ID_3GIX 0x33676978
44     # define CHUNK_ID_3EWA 0x33657761
45     # define CHUNK_ID_3LNK 0x336C6E6B
46     # define CHUNK_ID_3EWG 0x33657767
47     # define CHUNK_ID_EWAV 0x65776176
48     #else // little endian
49     # define LIST_TYPE_3PRG 0x67727033
50     # define LIST_TYPE_3EWL 0x6C776533
51     # define CHUNK_ID_SMPL 0x6C706D73
52     # define CHUNK_ID_3GIX 0x78696733
53     # define CHUNK_ID_3EWA 0x61776533
54     # define CHUNK_ID_3LNK 0x6B6E6C33
55     # define CHUNK_ID_3EWG 0x67776533
56     # define CHUNK_ID_EWAV 0x76617765
57     #endif // WORDS_BIGENDIAN
58    
59     /** (so far) every exponential paramater in the gig format has a basis of 1.000000008813822 */
60 schoenebeck 16 #define GIG_EXP_DECODE(x) (pow(1.000000008813822, x))
61     #define GIG_PITCH_TRACK_EXTRACT(x) (!(x & 0x01))
62     #define GIG_VCF_RESONANCE_CTRL_EXTRACT(x) ((x >> 4) & 0x03)
63     #define GIG_EG_CTR_ATTACK_INFLUENCE_EXTRACT(x) ((x >> 1) & 0x03)
64     #define GIG_EG_CTR_DECAY_INFLUENCE_EXTRACT(x) ((x >> 3) & 0x03)
65     #define GIG_EG_CTR_RELEASE_INFLUENCE_EXTRACT(x) ((x >> 5) & 0x03)
66     //TODO: the transformation functions are not very accurate compared to the original ones
67     #define GIG_VELOCITY_TRANSFORM_NONLINEAR(x,dynamic,scale) ((1.0-1.0/pow(x,1.0/(129.0-x))) * (1.0+scale/20.0) + (5.0-dynamic)*pow(x/300.0* (1.0+2.0*scale/128.0),2))
68     #define GIG_VELOCITY_TRANSFORM_LINEAR(x,dynamic,scale) ((1.0+scale*3.0/128.0)/110.0*x+(5.0-dynamic)/5.0+(5.0-dynamic)*scale)
69     #define GIG_VELOCITY_TRANSFORM_SPECIAL(x,dynamic,scale) ((1.0+9.0*scale/129.0)*(1.0-1.0/pow(x,1.0/(129.0-x))+pow(3.0*x/pow(129,2),2)+pow((5.0-dynamic)*x/500.0,2)))
70 schoenebeck 2
71     /** Gigasampler specific classes and definitions */
72     namespace gig {
73    
74     typedef std::string String;
75    
76     /** Lower and upper limit of a range. */
77     struct range_t {
78     uint8_t low; ///< Low value of range.
79     uint8_t high; ///< High value of range.
80     };
81    
82     /** Pointer address and size of a buffer. */
83     struct buffer_t {
84     void* pStart; ///< Points to the beginning of the buffer.
85     unsigned long Size; ///< Size of the actual data in the buffer in bytes.
86     unsigned long NullExtensionSize; ///< The buffer might be bigger than the actual data, if that's the case that unused space at the end of the buffer is filled with NULLs and NullExtensionSize reflects that unused buffer space in bytes. Those NULL extensions are mandatory for differential algorithms that have to take the following data words into account, thus have to access past the buffer's boundary. If you don't know what I'm talking about, just forget this variable. :)
87     };
88    
89     /** Standard types of sample loops. */
90     typedef enum {
91     loop_type_normal = 0x00000000, ///< Loop forward (normal)
92     loop_type_bidirectional = 0x00000001, ///< Alternating loop (forward/backward, also known as Ping Pong)
93     loop_type_backward = 0x00000002 ///< Loop backward (reverse)
94     } loop_type_t;
95    
96     /** Society of Motion Pictures and Television E time format. */
97     typedef enum {
98     smpte_format_no_offset = 0x00000000, ///< no SMPTE offset
99     smpte_format_24_frames = 0x00000018, ///< 24 frames per second
100     smpte_format_25_frames = 0x00000019, ///< 25 frames per second
101     smpte_format_30_frames_dropping = 0x0000001D, ///< 30 frames per second with frame dropping (30 drop)
102     smpte_format_30_frames = 0x0000001E ///< 30 frames per second
103     } smpte_format_t;
104    
105     /** Defines the shape of a function graph. */
106     typedef enum {
107     curve_type_nonlinear = 0,
108     curve_type_linear = 1,
109     curve_type_special = 2,
110     curve_type_unknown = 0xffffffff
111     } curve_type_t;
112    
113     /** Dimensions allow to bypass one of the following controllers. */
114     typedef enum {
115     dim_bypass_ctrl_none,
116     dim_bypass_ctrl_94, ///< Effect 4 Depth (MIDI Controller 94)
117     dim_bypass_ctrl_95 ///< Effect 5 Depth (MIDI Controller 95)
118     } dim_bypass_ctrl_t;
119    
120     /** Defines how LFO3 is controlled by. */
121     typedef enum {
122     lfo3_ctrl_internal = 0x00, ///< Only internally controlled.
123     lfo3_ctrl_modwheel = 0x01, ///< Only controlled by external modulation wheel.
124     lfo3_ctrl_aftertouch = 0x02, ///< Only controlled by aftertouch controller.
125     lfo3_ctrl_internal_modwheel = 0x03, ///< Controlled internally and by external modulation wheel.
126     lfo3_ctrl_internal_aftertouch = 0x04 ///< Controlled internally and by aftertouch controller.
127     } lfo3_ctrl_t;
128    
129     /** Defines how LFO2 is controlled by. */
130     typedef enum {
131     lfo2_ctrl_internal = 0x00, ///< Only internally controlled.
132     lfo2_ctrl_modwheel = 0x01, ///< Only controlled by external modulation wheel.
133     lfo2_ctrl_foot = 0x02, ///< Only controlled by external foot controller.
134     lfo2_ctrl_internal_modwheel = 0x03, ///< Controlled internally and by external modulation wheel.
135     lfo2_ctrl_internal_foot = 0x04 ///< Controlled internally and by external foot controller.
136     } lfo2_ctrl_t;
137    
138     /** Defines how LFO1 is controlled by. */
139     typedef enum {
140     lfo1_ctrl_internal = 0x00, ///< Only internally controlled.
141     lfo1_ctrl_modwheel = 0x01, ///< Only controlled by external modulation wheel.
142     lfo1_ctrl_breath = 0x02, ///< Only controlled by external breath controller.
143     lfo1_ctrl_internal_modwheel = 0x03, ///< Controlled internally and by external modulation wheel.
144     lfo1_ctrl_internal_breath = 0x04 ///< Controlled internally and by external breath controller.
145     } lfo1_ctrl_t;
146    
147     /** Defines how the filter cutoff frequency is controlled by. */
148     typedef enum {
149     vcf_cutoff_ctrl_none = 0x00,
150     vcf_cutoff_ctrl_modwheel = 0x81, ///< Modulation Wheel (MIDI Controller 1)
151     vcf_cutoff_ctrl_effect1 = 0x8c, ///< Effect Controller 1 (Coarse, MIDI Controller 12)
152     vcf_cutoff_ctrl_effect2 = 0x8d, ///< Effect Controller 2 (Coarse, MIDI Controller 13)
153     vcf_cutoff_ctrl_breath = 0x82, ///< Breath Controller (Coarse, MIDI Controller 2)
154     vcf_cutoff_ctrl_foot = 0x84, ///< Foot Pedal (Coarse, MIDI Controller 4)
155     vcf_cutoff_ctrl_sustainpedal = 0xc0, ///< Sustain Pedal (MIDI Controller 64)
156     vcf_cutoff_ctrl_softpedal = 0xc3, ///< Soft Pedal (MIDI Controller 67)
157     vcf_cutoff_ctrl_genpurpose7 = 0xd2, ///< General Purpose Controller 7 (Button, MIDI Controller 82)
158     vcf_cutoff_ctrl_genpurpose8 = 0xd3, ///< General Purpose Controller 8 (Button, MIDI Controller 83)
159     vcf_cutoff_ctrl_aftertouch = 0x80 ///< Key Pressure
160     } vcf_cutoff_ctrl_t;
161    
162     /** Defines how the filter resonance is controlled by. */
163     typedef enum {
164     vcf_res_ctrl_none = 0xffffffff,
165     vcf_res_ctrl_genpurpose3 = 0, ///< General Purpose Controller 3 (Slider, MIDI Controller 18)
166     vcf_res_ctrl_genpurpose4 = 1, ///< General Purpose Controller 4 (Slider, MIDI Controller 19)
167     vcf_res_ctrl_genpurpose5 = 2, ///< General Purpose Controller 5 (Button, MIDI Controller 80)
168     vcf_res_ctrl_genpurpose6 = 3 ///< General Purpose Controller 6 (Button, MIDI Controller 81)
169     } vcf_res_ctrl_t;
170    
171     /** Defines how attenuation (=gain / VCA) is controlled by. */
172     typedef enum {
173     attenuation_ctrl_none = 0x00,
174     attenuation_ctrl_modwheel = 0x03, ///< Modulation Wheel (MIDI Controller 1)
175     attenuation_ctrl_breath = 0x05, ///< Breath Controller (Coarse, MIDI Controller 2)
176     attenuation_ctrl_foot = 0x07, ///< Foot Pedal (Coarse, MIDI Controller 4)
177     attenuation_ctrl_effect1 = 0x0d, ///< Effect Controller 1 (Coarse, MIDI Controller 12)
178     attenuation_ctrl_effect2 = 0x0f, ///< Effect Controller 2 (Coarse, MIDI Controller 13)
179     attenuation_ctrl_genpurpose1 = 0x11, ///< General Purpose Controller 1 (Slider, MIDI Controller 16)
180     attenuation_ctrl_genpurpose2 = 0x13, ///< General Purpose Controller 2 (Slider, MIDI Controller 17)
181     attenuation_ctrl_genpurpose3 = 0x15, ///< General Purpose Controller 3 (Slider, MIDI Controller 18)
182     attenuation_ctrl_genpurpose4 = 0x17, ///< General Purpose Controller 4 (Slider, MIDI Controller 19)
183     attenuation_ctrl_portamentotime = 0x0b, ///< Portamento Time (Coarse, MIDI Controller 5)
184     attenuation_ctrl_sustainpedal = 0x01, ///< Sustain Pedal (MIDI Controller 64)
185     attenuation_ctrl_portamento = 0x19, ///< Portamento (MIDI Controller 65)
186     attenuation_ctrl_sostenutopedal = 0x1b, ///< Sostenuto Pedal (MIDI Controller 66)
187     attenuation_ctrl_softpedal = 0x09, ///< Soft Pedal (MIDI Controller 67)
188     attenuation_ctrl_genpurpose5 = 0x1d, ///< General Purpose Controller 5 (Button, MIDI Controller 80)
189     attenuation_ctrl_genpurpose6 = 0x1f, ///< General Purpose Controller 6 (Button, MIDI Controller 81)
190     attenuation_ctrl_genpurpose7 = 0x21, ///< General Purpose Controller 7 (Button, MIDI Controller 82)
191     attenuation_ctrl_genpurpose8 = 0x23, ///< General Purpose Controller 8 (Button, MIDI Controller 83)
192     attenuation_ctrl_effect1depth = 0x25, ///< Effect 1 Depth (MIDI Controller 91)
193     attenuation_ctrl_effect2depth = 0x27, ///< Effect 2 Depth (MIDI Controller 92)
194     attenuation_ctrl_effect3depth = 0x29, ///< Effect 3 Depth (MIDI Controller 93)
195     attenuation_ctrl_effect4depth = 0x2b, ///< Effect 4 Depth (MIDI Controller 94)
196     attenuation_ctrl_effect5depth = 0x2d, ///< Effect 5 Depth (MIDI Controller 95)
197     attenuation_ctrl_channelaftertouch = 0x2f, ///< Channel Key Pressure
198     attenuation_ctrl_velocity = 0xff ///< Key Velocity
199     } attenuation_ctrl_t, eg1_ctrl_t, eg2_ctrl_t;
200    
201     /**
202     * Defines the type of dimension, that is how the dimension zones (and
203     * thus how the dimension regions are selected by. The number of
204     * dimension zones is always a power of two. All dimensions can have up
205     * to 32 zones (except the layer dimension with only up to 8 zones and
206     * the samplechannel dimension which currently allows only 2 zones).
207     */
208     typedef enum {
209     dimension_none = 0x00, ///< Dimension not in use.
210     dimension_samplechannel = 0x80, ///< If used sample has more than one channel (thus is not mono).
211     dimension_layer = 0x81, ///< For layering of up to 8 instruments (and eventually crossfading of 2 or 4 layers).
212     dimension_velocity = 0x82, ///< Key Velocity (this is the only dimension where the ranges can exactly be defined).
213     dimension_channelaftertouch = 0x83, ///< Channel Key Pressure
214     dimension_releasetrigger = 0x84, ///< Special dimension for triggering samples on releasing a key.
215     dimension_keyboard = 0x85, ///< Key Position
216     dimension_modwheel = 0x01, ///< Modulation Wheel (MIDI Controller 1)
217     dimension_breath = 0x02, ///< Breath Controller (Coarse, MIDI Controller 2)
218     dimension_foot = 0x04, ///< Foot Pedal (Coarse, MIDI Controller 4)
219     dimension_portamentotime = 0x05, ///< Portamento Time (Coarse, MIDI Controller 5)
220     dimension_effect1 = 0x0c, ///< Effect Controller 1 (Coarse, MIDI Controller 12)
221     dimension_effect2 = 0x0d, ///< Effect Controller 2 (Coarse, MIDI Controller 13)
222     dimension_genpurpose1 = 0x10, ///< General Purpose Controller 1 (Slider, MIDI Controller 16)
223     dimension_genpurpose2 = 0x11, ///< General Purpose Controller 2 (Slider, MIDI Controller 17)
224     dimension_genpurpose3 = 0x12, ///< General Purpose Controller 3 (Slider, MIDI Controller 18)
225     dimension_genpurpose4 = 0x13, ///< General Purpose Controller 4 (Slider, MIDI Controller 19)
226     dimension_sustainpedal = 0x40, ///< Sustain Pedal (MIDI Controller 64)
227     dimension_portamento = 0x41, ///< Portamento (MIDI Controller 65)
228     dimension_sostenutopedal = 0x42, ///< Sostenuto Pedal (MIDI Controller 66)
229     dimension_softpedal = 0x43, ///< Soft Pedal (MIDI Controller 67)
230     dimension_genpurpose5 = 0x30, ///< General Purpose Controller 5 (Button, MIDI Controller 80)
231     dimension_genpurpose6 = 0x31, ///< General Purpose Controller 6 (Button, MIDI Controller 81)
232     dimension_genpurpose7 = 0x32, ///< General Purpose Controller 7 (Button, MIDI Controller 82)
233     dimension_genpurpose8 = 0x33, ///< General Purpose Controller 8 (Button, MIDI Controller 83)
234     dimension_effect1depth = 0x5b, ///< Effect 1 Depth (MIDI Controller 91)
235     dimension_effect2depth = 0x5c, ///< Effect 2 Depth (MIDI Controller 92)
236     dimension_effect3depth = 0x5d, ///< Effect 3 Depth (MIDI Controller 93)
237     dimension_effect4depth = 0x5e, ///< Effect 4 Depth (MIDI Controller 94)
238     dimension_effect5depth = 0x5f ///< Effect 5 Depth (MIDI Controller 95)
239     } dimension_t;
240    
241     /**
242     * Intended for internal usage: will be used to convert a dimension value
243     * into the corresponding dimension bit number.
244     */
245     typedef enum {
246     split_type_normal, ///< dimension value between 0-127, no custom range of zones
247     split_type_customvelocity, ///< a velocity dimension split with custom range definition for each zone (if a velocity dimension split has no custom defined zone ranges then it's also just of type split_type_normal)
248     split_type_bit ///< dimension values are already the sought bit number
249     } split_type_t;
250    
251     /** General dimension definition. */
252     struct dimension_def_t {
253     dimension_t dimension; ///< Specifies which source (usually a MIDI controller) is associated with the dimension.
254     uint8_t bits; ///< Number of "bits" (1 bit = 2 splits/zones, 2 bit = 4 splits/zones, 3 bit = 8 splits/zones,...).
255     uint8_t zones; ///< Number of zones the dimension has.
256     split_type_t split_type; ///< Intended for internal usage: will be used to convert a dimension value into the corresponding dimension bit number.
257     range_t* ranges; ///< Intended for internal usage: Points to the beginning of a range_t array which reflects the value ranges of each dimension zone (only if custom defined ranges are defined, is NULL otherwise).
258     unsigned int zone_size; ///< Intended for internal usage: reflects the size of each zone (128/zones) for normal split types only, 0 otherwise.
259     };
260    
261     /** Defines which frequencies are filtered by the VCF. */
262     typedef enum {
263     vcf_type_lowpass = 0x00,
264     vcf_type_lowpassturbo = 0xff, ///< More poles than normal lowpass
265     vcf_type_bandpass = 0x01,
266     vcf_type_highpass = 0x02,
267     vcf_type_bandreject = 0x03
268     } vcf_type_t;
269    
270     /** Defines the envelope of a crossfade. */
271     struct crossfade_t {
272     #if WORDS_BIGENDIAN
273     uint8_t in_start; ///< Start position of fade in.
274     uint8_t in_end; ///< End position of fade in.
275     uint8_t out_start; ///< Start position of fade out.
276     uint8_t out_end; ///< End postition of fade out.
277     #else // little endian
278     uint8_t out_end; ///< End postition of fade out.
279     uint8_t out_start; ///< Start position of fade out.
280     uint8_t in_end; ///< End position of fade in.
281     uint8_t in_start; ///< Start position of fade in.
282     #endif // WORDS_BIGENDIAN
283     };
284    
285     // just symbol prototyping
286     class File;
287     class Instrument;
288     class Sample;
289    
290     /** Encapsulates articulation information of a dimension region.
291     *
292     * Every Gigasampler Instrument has at least one dimension region
293     * (exactly then when it has no dimension defined).
294     *
295     * Gigasampler provides three Envelope Generators and Low Frequency
296     * Oscillators:
297     *
298     * - EG1 and LFO1, both controlling sample amplitude
299     * - EG2 and LFO2, both controlling filter cutoff frequency
300     * - EG3 and LFO3, both controlling sample pitch
301     */
302     class DimensionRegion : protected DLS::Sampler {
303     public:
304     uint8_t VelocityUpperLimit; ///< Defines the upper velocity value limit of a velocity split (only if an user defined limit was set, thus a value not equal to 128/NumberOfSplits, else this value is 0).
305     Sample* pSample; ///< Points to the Sample which is assigned to the dimension region.
306     // Sample Amplitude EG/LFO
307     uint16_t EG1PreAttack; ///< Preattack value of the sample amplitude EG (0 - 1000 permille).
308     double EG1Attack; ///< Attack time of the sample amplitude EG (0.000 - 60.000s).
309     double EG1Decay1; ///< Decay time of the sample amplitude EG (0.000 - 60.000s).
310     double EG1Decay2; ///< Only if <i>EG1InfiniteSustain == false</i>: 2nd decay stage time of the sample amplitude EG (0.000 - 60.000s).
311     bool EG1InfiniteSustain; ///< If <i>true</i>, instead of going into Decay2 phase, Decay1 level will be hold until note will be released.
312     uint16_t EG1Sustain; ///< Sustain value of the sample amplitude EG (0 - 1000 permille).
313     double EG1Release; ///< Release time of the sample amplitude EG (0.000 - 60.000s).
314     bool EG1Hold; ///< If <i>true</i>, Decay1 stage should be postponed until the sample reached the sample loop start.
315     eg1_ctrl_t EG1Controller; ///< MIDI Controller which has influence on sample amplitude EG parameters (attack, decay, release).
316     bool EG1ControllerInvert; ///< Invert values coming from defined EG1 controller.
317     uint8_t EG1ControllerAttackInfluence; ///< Amount EG1 Controller has influence on the EG1 Attack time.
318     uint8_t EG1ControllerDecayInfluence; ///< Amount EG1 Controller has influence on the EG1 Decay time.
319     uint8_t EG1ControllerReleaseInfluence; ///< Amount EG1 Controller has influence on the EG1 Release time.
320     double LFO1Frequency; ///< Frequency of the sample amplitude LFO (0.10 - 10.00 Hz).
321     uint16_t LFO1InternalDepth; ///< Firm pitch of the sample amplitude LFO (0 - 1200 cents).
322     uint16_t LFO1ControlDepth; ///< Controller depth influencing sample amplitude LFO pitch (0 - 1200 cents).
323     lfo1_ctrl_t LFO1Controller; ///< MIDI Controller which controls sample amplitude LFO.
324     bool LFO1FlipPhase; ///< Inverts phase of the sample amplitude LFO wave.
325     bool LFO1Sync; ///< If set to <i>true</i> only one LFO should be used for all voices.
326     // Filter Cutoff Frequency EG/LFO
327     uint16_t EG2PreAttack; ///< Preattack value of the filter cutoff EG (0 - 1000 permille).
328     double EG2Attack; ///< Attack time of the filter cutoff EG (0.000 - 60.000s).
329     double EG2Decay1; ///< Decay time of the filter cutoff EG (0.000 - 60.000s).
330     double EG2Decay2; ///< Only if <i>EG2InfiniteSustain == false</i>: 2nd stage decay time of the filter cutoff EG (0.000 - 60.000s).
331     bool EG2InfiniteSustain; ///< If <i>true</i>, instead of going into Decay2 phase, Decay1 level will be hold until note will be released.
332     uint16_t EG2Sustain; ///< Sustain value of the filter cutoff EG (0 - 1000 permille).
333     double EG2Release; ///< Release time of the filter cutoff EG (0.000 - 60.000s).
334     eg2_ctrl_t EG2Controller; ///< MIDI Controller which has influence on filter cutoff EG parameters (attack, decay, release).
335     bool EG2ControllerInvert; ///< Invert values coming from defined EG2 controller.
336     uint8_t EG2ControllerAttackInfluence; ///< Amount EG2 Controller has influence on the EG2 Attack time.
337     uint8_t EG2ControllerDecayInfluence; ///< Amount EG2 Controller has influence on the EG2 Decay time.
338     uint8_t EG2ControllerReleaseInfluence; ///< Amount EG2 Controller has influence on the EG2 Release time.
339     double LFO2Frequency; ///< Frequency of the filter cutoff LFO (0.10 - 10.00 Hz).
340     uint16_t LFO2InternalDepth; ///< Firm pitch of the filter cutoff LFO (0 - 1200 cents).
341     uint16_t LFO2ControlDepth; ///< Controller depth influencing filter cutoff LFO pitch (0 - 1200).
342     lfo2_ctrl_t LFO2Controller; ///< MIDI Controlle which controls the filter cutoff LFO.
343     bool LFO2FlipPhase; ///< Inverts phase of the filter cutoff LFO wave.
344     bool LFO2Sync; ///< If set to <i>true</i> only one LFO should be used for all voices.
345     // Sample Pitch EG/LFO
346     double EG3Attack; ///< Attack time of the sample pitch EG (0.000 - 10.000s).
347     int16_t EG3Depth; ///< Depth of the sample pitch EG (-1200 - +1200).
348     double LFO3Frequency; ///< Frequency of the sample pitch LFO (0.10 - 10.00 Hz).
349     int16_t LFO3InternalDepth; ///< Firm depth of the sample pitch LFO (-1200 - +1200 cents).
350     int16_t LFO3ControlDepth; ///< Controller depth of the sample pitch LFO (-1200 - +1200 cents).
351     lfo3_ctrl_t LFO3Controller; ///< MIDI Controller which controls the sample pitch LFO.
352     bool LFO3Sync; ///< If set to <i>true</i> only one LFO should be used for all voices.
353     // Filter
354     bool VCFEnabled; ///< If filter should be used.
355     vcf_type_t VCFType; ///< Defines the general filter characteristic (lowpass, highpass, bandpass, etc.).
356     vcf_cutoff_ctrl_t VCFCutoffController; ///< Specifies which external controller has influence on the filter cutoff frequency.
357     uint8_t VCFCutoff; ///< Max. cutoff frequency.
358     curve_type_t VCFVelocityCurve; ///< Defines a transformation curve for the incoming velocity values, affecting the VCF.
359     uint8_t VCFVelocityScale; ///< (0-127) Amount velocity controls VCF cutoff frequency (only if no other VCF cutoff controller is defined).
360     uint8_t VCFVelocityDynamicRange; ///< 0x04 = lowest, 0x00 = highest
361     uint8_t VCFResonance; ///< Firm internal filter resonance weight.
362     bool VCFResonanceDynamic; ///< If <i>true</i>: Increases the resonance Q according to changes of controllers that actually control the VCF cutoff frequency (EG2, ext. VCF MIDI controller).
363     vcf_res_ctrl_t VCFResonanceController; ///< Specifies which external controller has influence on the filter resonance Q.
364     bool VCFKeyboardTracking; ///< If <i>true</i>: VCF cutoff frequence will be dependend to the note key position relative to the defined breakpoint value.
365     uint8_t VCFKeyboardTrackingBreakpoint; ///< See VCFKeyboardTracking (0 - 127).
366     // Key Velocity Transformations
367     curve_type_t VelocityResponseCurve; ///< Defines a transformation curve to the incoming velocity values affecting amplitude.
368     uint8_t VelocityResponseDepth; ///< Dynamic range of velocity affecting amplitude (0 - 4).
369 schoenebeck 16 uint8_t VelocityResponseCurveScaling; ///< 0 - 127
370 schoenebeck 2 curve_type_t ReleaseVelocityResponseCurve; ///< Defines a transformation curve to the incoming release veloctiy values affecting envelope times.
371     uint8_t ReleaseVelocityResponseDepth; ///< Dynamic range of release velocity affecting envelope time (0 - 4).
372     uint8_t ReleaseTriggerDecay; ///< 0 - 8
373     // Mix / Layer
374     crossfade_t Crossfade;
375     bool PitchTrack; ///< If <i>true</i>: sample will be pitched according to the key position (this will be disabled for drums for example).
376     dim_bypass_ctrl_t DimensionBypass; ///< If defined, the MIDI controller can switch on/off the dimension in realtime.
377     int8_t Pan; ///< Panorama / Balance (-64..0..63 <-> left..middle..right)
378     bool SelfMask; ///< If <i>true</i>: high velocity notes will stop low velocity notes at the same note, with that you can save voices that wouldn't be audible anyway.
379     attenuation_ctrl_t AttenuationControl; ///< MIDI Controller which has influence on the volume level of the sample (or entire sample group).
380     bool InvertAttenuationControl; ///< Inverts the values coming from the defined Attenuation Controller.
381     uint8_t AttenuationControlTreshold; ///< 0-127
382     uint8_t ChannelOffset; ///< Audio output where the audio signal of the dimension region should be routed to (0 - 9).
383     bool SustainDefeat; ///< If <i>true</i>: Sustain pedal will not hold a note.
384     bool MSDecode; ///< Gigastudio flag: defines if Mid Side Recordings should be decoded.
385     uint16_t SampleStartOffset; ///< Number of samples the sample start should be moved (0 - 2000).
386     // derived attributes from DLS::Sampler
387     DLS::Sampler::UnityNote;
388     DLS::Sampler::FineTune;
389     DLS::Sampler::Gain;
390     DLS::Sampler::SampleLoops;
391     DLS::Sampler::pSampleLoops;
392    
393 schoenebeck 16 // Methods
394     double GetVelocityAttenuation(uint8_t MIDIKeyVelocity);
395     protected:
396 schoenebeck 2 DimensionRegion(RIFF::List* _3ewl);
397 schoenebeck 16 ~DimensionRegion();
398     friend class Region;
399     private:
400     typedef std::map<uint32_t, double*> VelocityTableMap;
401    
402     static uint Instances; ///< Number of DimensionRegion instances.
403     static VelocityTableMap* pVelocityTables; ///< Contains the tables corresponding to the various velocity parameters (VelocityResponseCurve and VelocityResponseDepth).
404     double* pVelocityAttenuationTable; ///< Points to the velocity table corresponding to the velocity parameters of this DimensionRegion.
405 schoenebeck 2 };
406    
407     /** Encapsulates sample waves used for playback. */
408     class Sample : public DLS::Sample {
409     public:
410     uint16_t SampleGroup;
411     uint32_t Manufacturer; ///< Specifies the MIDI Manufacturer's Association (MMA) Manufacturer code for the sampler intended to receive this file's waveform. If no particular manufacturer is to be specified, a value of 0 should be used.
412     uint32_t Product; ///< Specifies the MIDI model ID defined by the manufacturer corresponding to the Manufacturer field. If no particular manufacturer's product is to be specified, a value of 0 should be used.
413     uint32_t SamplePeriod; ///< Specifies the duration of time that passes during the playback of one sample in nanoseconds (normally equal to 1 / Samplers Per Second, where Samples Per Second is the value found in the format chunk).
414     uint32_t MIDIUnityNote; ///< Specifies the musical note at which the sample will be played at it's original sample rate.
415 schoenebeck 21 uint32_t FineTune; ///< Specifies the fraction of a semitone up from the specified MIDI unity note field. A value of 0x80000000 means 1/2 semitone (50 cents) and a value of 0x00000000 means no fine tuning between semitones.
416 schoenebeck 2 smpte_format_t SMPTEFormat; ///< Specifies the Society of Motion Pictures and Television E time format used in the following <i>SMPTEOffset</i> field. If a value of 0 is set, <i>SMPTEOffset</i> should also be set to 0.
417     uint32_t SMPTEOffset; ///< The SMPTE Offset value specifies the time offset to be used for the synchronization / calibration to the first sample in the waveform. This value uses a format of 0xhhmmssff where hh is a signed value that specifies the number of hours (-23 to 23), mm is an unsigned value that specifies the number of minutes (0 to 59), ss is an unsigned value that specifies the number of seconds (0 to 59) and ff is an unsigned value that specifies the number of frames (0 to -1).
418     uint32_t Loops; ///< Number of defined sample loops (so far only seen single loops in gig files - please report me if you encounter more!).
419 schoenebeck 21 uint32_t LoopID; ///< Specifies the unique ID that corresponds to one of the defined cue points in the cue point list (only if Loops > 0), as the Gigasampler format only allows one loop definition at the moment, this attribute isn't really useful for anything.
420 schoenebeck 2 loop_type_t LoopType; ///< The type field defines how the waveform samples will be looped (only if Loops > 0).
421 schoenebeck 21 uint32_t LoopStart; ///< The start value specifies the offset (in sample points) in the waveform data of the first sample to be played in the loop (only if Loops > 0).
422     uint32_t LoopEnd; ///< The end value specifies the offset (in sample points) in the waveform data which represents the end of the loop (only if Loops > 0).
423     uint32_t LoopSize; ///< Length of the looping area (in sample points) which is equivalent to <i>LoopEnd - LoopStart</i>.
424 schoenebeck 2 uint32_t LoopFraction; ///< The fractional value specifies a fraction of a sample at which to loop (only if Loops > 0). This allows a loop to be fine tuned at a resolution greater than one sample. A value of 0 means no fraction, a value of 0x80000000 means 1/2 of a sample length. 0xFFFFFFFF is the smallest fraction of a sample that can be represented.
425     uint32_t LoopPlayCount; ///< Number of times the loop should be played (only if Loops > 0, a value of 0 = infinite).
426     bool Compressed; ///< If the sample wave is compressed (probably just interesting for instrument and sample editors, as this library already handles the decompression in it's sample access methods anyway).
427    
428     // own methods
429     buffer_t LoadSampleData();
430     buffer_t LoadSampleData(unsigned long SampleCount);
431     buffer_t LoadSampleDataWithNullSamplesExtension(uint NullSamplesCount);
432     buffer_t LoadSampleDataWithNullSamplesExtension(unsigned long SampleCount, uint NullSamplesCount);
433     buffer_t GetCache();
434     // overridden methods
435     void ReleaseSampleData();
436     unsigned long SetPos(unsigned long SampleCount, RIFF::stream_whence_t Whence = RIFF::stream_start);
437     unsigned long GetPos();
438     unsigned long Read(void* pBuffer, unsigned long SampleCount);
439     protected:
440     static unsigned int Instances; ///< Number of instances of class Sample.
441     static unsigned long DecompressionBufferSize; ///< Current size of the decompression buffer.
442     static void* pDecompressionBuffer; ///< Small buffer used for decompression only.
443     unsigned long FrameOffset; ///< Current offset (sample points) in current sample frame (for decompression only).
444     unsigned long* FrameTable; ///< For positioning within compressed samples only: stores the offset values for each frame.
445     unsigned long SamplePos; ///< For compressed samples only: stores the current position (in sample points).
446     buffer_t RAMCache; ///< Buffers samples (already uncompressed) in RAM.
447    
448     Sample(File* pFile, RIFF::List* waveList, unsigned long WavePoolOffset);
449     ~Sample();
450     private:
451     void ScanCompressedSample();
452     friend class File;
453     friend class Region;
454     };
455    
456     // TODO: <3dnl> list not used yet - not important though (just contains optional descriptions for the dimensions)
457     /** Defines <i>Region</i> information of an <i>Instrument</i>. */
458     class Region : public DLS::Region {
459     public:
460     unsigned int Dimensions; ///< Number of defined dimensions.
461     dimension_def_t pDimensionDefinitions[5]; ///< Defines the five possible dimensions (the dimension's controller and number of bits/splits).
462     uint32_t DimensionRegions; ///< Total number of DimensionRegions this Region contains.
463     DimensionRegion* pDimensionRegions[32]; ///< Pointer array to the 32 possible dimension regions (reflects NULL for dimension regions not in use). Avoid to access the array directly and better use GetDimensionRegionByValue() instead, but of course in some cases it makes sense to use the array (e.g. iterating through all DimensionRegions).
464    
465     DimensionRegion* GetDimensionRegionByValue(uint Dim4Val, uint Dim3Val, uint Dim2Val, uint Dim1Val, uint Dim0Val);
466     DimensionRegion* GetDimensionRegionByBit(uint8_t Dim4Bit, uint8_t Dim3Bit, uint8_t Dim2Bit, uint8_t Dim1Bit, uint8_t Dim0Bit);
467     Sample* GetSample();
468     protected:
469     uint8_t VelocityTable[128]; ///< For velocity dimensions with custom defined zone ranges only: used for fast converting from velocity MIDI value to dimension bit number.
470    
471     Region(Instrument* pInstrument, RIFF::List* rgnList);
472     void LoadDimensionRegions(RIFF::List* rgn);
473     Sample* GetSampleFromWavePool(unsigned int WavePoolTableIndex);
474     ~Region();
475     friend class Instrument;
476     };
477    
478     /** Provides all neccessary information for the synthesis of an <i>Instrument</i>. */
479     class Instrument : protected DLS::Instrument {
480     public:
481     // derived attributes from DLS::Resource
482     DLS::Resource::pInfo;
483     DLS::Resource::pDLSID;
484     // derived attributes from DLS::Instrument
485     DLS::Instrument::IsDrum;
486     DLS::Instrument::MIDIBank;
487     DLS::Instrument::MIDIBankCoarse;
488     DLS::Instrument::MIDIBankFine;
489     DLS::Instrument::MIDIProgram;
490     DLS::Instrument::Regions;
491     // own attributes
492     int32_t Attenuation; ///< in dB
493     uint16_t EffectSend;
494     int16_t FineTune; ///< in cents
495     uint16_t PitchbendRange; ///< Number of semitones pitchbend controller can pitch (default is 2).
496     bool PianoReleaseMode;
497     range_t DimensionKeyRange; ///< 0-127 (where 0 means C1 and 127 means G9)
498    
499    
500     // derived methods from DLS::Resource
501     DLS::Resource::GetParent;
502     // overridden methods
503     Region* GetFirstRegion();
504     Region* GetNextRegion();
505     // own methods
506     Region* GetRegion(unsigned int Key);
507     protected:
508     Region** pRegions; ///< Pointer array to the regions
509     Region* RegionKeyTable[128]; ///< fast lookup for the corresponding Region of a MIDI key
510     int RegionIndex;
511    
512     Instrument(File* pFile, RIFF::List* insList);
513     ~Instrument();
514     friend class File;
515     };
516    
517     // TODO: <3gnm> chunk not added yet (just contains the names of the sample groups)
518     /** Parses Gigasampler files and provides abstract access to the data. */
519     class File : protected DLS::File {
520     public:
521     // derived attributes from DLS::Resource
522     DLS::Resource::pInfo;
523     DLS::Resource::pDLSID;
524     // derived attributes from DLS::File
525     DLS::File::pVersion;
526     DLS::File::Instruments;
527    
528     // derived methods from DLS::Resource
529     DLS::Resource::GetParent;
530     // overridden methods
531     File(RIFF::File* pRIFF);
532     Sample* GetFirstSample(); ///< Returns a pointer to the first <i>Sample</i> object of the file, <i>NULL</i> otherwise.
533     Sample* GetNextSample(); ///< Returns a pointer to the next <i>Sample</i> object of the file, <i>NULL</i> otherwise.
534     Instrument* GetFirstInstrument(); ///< Returns a pointer to the first <i>Instrument</i> object of the file, <i>NULL</i> otherwise.
535     Instrument* GetNextInstrument(); ///< Returns a pointer to the next <i>Instrument</i> object of the file, <i>NULL</i> otherwise.
536 schoenebeck 21 Instrument* GetInstrument(uint index);
537 schoenebeck 2 ~File() {};
538     protected:
539     typedef std::list<Sample*> SampleList;
540     typedef std::list<Instrument*> InstrumentList;
541    
542     SampleList* pSamples;
543     SampleList::iterator SamplesIterator;
544     InstrumentList* pInstruments;
545     InstrumentList::iterator InstrumentsIterator;
546    
547     void LoadSamples();
548     void LoadInstruments();
549     friend class Region;
550     };
551    
552     /** Will be thrown whenever a gig specific error occurs while trying to access a Gigasampler File. */
553     class Exception : public DLS::Exception {
554     public:
555     Exception(String Message);
556     void PrintMessage();
557     };
558    
559     } // namespace gig
560    
561     #endif // __GIG_H__

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