1/*---------------------------------------------------------------------------- 2 * 3 * File: 4 * eas_mdls.h 5 * 6 * Contents and purpose: 7 * Declarations, interfaces, and prototypes for eas_mdls.c 8 * 9 * Copyright Sonic Network Inc. 2004 10 11 * Licensed under the Apache License, Version 2.0 (the "License"); 12 * you may not use this file except in compliance with the License. 13 * You may obtain a copy of the License at 14 * 15 * http://www.apache.org/licenses/LICENSE-2.0 16 * 17 * Unless required by applicable law or agreed to in writing, software 18 * distributed under the License is distributed on an "AS IS" BASIS, 19 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 20 * See the License for the specific language governing permissions and 21 * limitations under the License. 22 * 23 *---------------------------------------------------------------------------- 24*/ 25 26#ifndef _EAS_MDLS_H 27#define _EAS_MDLS_H 28 29/*------------------------------------ 30 * includes 31 *------------------------------------ 32*/ 33#include "eas_data.h" 34 35 36/*------------------------------------ 37 * Some defines for dls.h 38 *------------------------------------ 39*/ 40#ifndef DWORD 41#define DWORD EAS_I32 42#define FAR 43#define SHORT EAS_I16 44#define USHORT EAS_U16 45#define LONG EAS_I32 46#define ULONG EAS_U32 47#endif 48 49 50/* GUID struct (call it DLSID in case GUID is defined elsewhere) */ 51typedef struct 52{ 53 EAS_U32 Data1; 54 EAS_U16 Data2; 55 EAS_U16 Data3; 56 EAS_U8 Data4[8]; 57} DLSID; 58 59#define DEFINE_DLSID(name, l, w1, w2, b1, b2, b3, b4, b5, b6, b7, b8) const DLSID name = { l, w1, w2, { b1, b2, b3, b4, b5, b6, b7, b8 } } 60 61/*------------------------------------ 62 * defines 63 *------------------------------------ 64*/ 65 66/* maximum sample memory for DLS query support */ 67#ifndef MAX_DLS_MEMORY 68#define MAX_DLS_MEMORY 65536 69#endif 70 71/* size of conditional chunk stack */ 72#ifndef CDL_STACK_SIZE 73#define CDL_STACK_SIZE 8 74#endif 75 76/* size of read buffer for sample conversion */ 77#ifndef SAMPLE_CONVERT_CHUNK_SIZE 78#define SAMPLE_CONVERT_CHUNK_SIZE 32 79#endif 80 81 82#define ZERO_TIME_IN_CENTS -32768 83 84/* Pan calculation macros */ 85#define PAN_CONVERSION_FACTOR 4129 86#define MAX_PAN_VALUE 63 87#define MIN_PAN_VALUE -63 88 89/* multiplier to convert time cents to 10-bit fraction log for EAS_LogToLinear16 */ 90#define TIME_CENTS_TO_LOG2 27962 91 92/* conversion factor sustain level from percent to exponent for LogToLinear16 */ 93#define SUSTAIN_LOG_CONVERSION_FACTOR 536871 94#define SUSTAIN_LOG_CONVERSION_SHIFT 15 95 96/* conversion factor sustain level from percent to EG full scale */ 97#define SUSTAIN_LINEAR_CONVERSION_FACTOR 1073709 98 99/* conversion factor to convert frame period to decay rate */ 100#define DECAY_CONVERSION_FACTOR -16 101 102/*---------------------------------------------------------------------------- 103 * These macros define the various characteristics of the defined sample rates 104 *---------------------------------------------------------------------------- 105 * DLS_ATTACK_TIME_CONVERT log offset for conversion from time cents to attack rate 106 * DLS_LFO_FREQUENCY_CONVERT pitch-cents offset for LFO frequency conversion 107 *---------------------------------------------------------------------------- 108*/ 109 110#if defined (_SAMPLE_RATE_8000) 111#define DLS_RATE_CONVERT -9559 112#define DLS_LFO_FREQUENCY_CONVERT 5921 113 114#elif defined (_SAMPLE_RATE_16000) 115#define DLS_RATE_CONVERT -9559 116#define DLS_LFO_FREQUENCY_CONVERT 5921 117 118#elif defined (_SAMPLE_RATE_20000) 119#define DLS_RATE_CONVERT -8745 120#define DLS_LFO_FREQUENCY_CONVERT 5108 121 122#elif defined (_SAMPLE_RATE_22050) 123#define DLS_RATE_CONVERT -8914 124#define DLS_LFO_FREQUENCY_CONVERT 5277 125 126#elif defined (_SAMPLE_RATE_24000) 127#define DLS_RATE_CONVERT -9061 128#define DLS_LFO_FREQUENCY_CONVERT 5423 129 130#elif defined (_SAMPLE_RATE_32000) 131#define DLS_RATE_CONVERT -9559 132#define DLS_LFO_FREQUENCY_CONVERT 5921 133 134#elif defined (_SAMPLE_RATE_44100) 135#define DLS_RATE_CONVERT -8914 136#define DLS_LFO_FREQUENCY_CONVERT 5277 137 138#elif defined (_SAMPLE_RATE_48000) 139#define DLS_RATE_CONVERT -9061 140#define DLS_LFO_FREQUENCY_CONVERT 5423 141 142#else 143#error "_SAMPLE_RATE_XXXXX must be defined to valid rate" 144#endif 145 146/* 147 * FILTER_Q_CONVERSION_FACTOR convers the 0.1dB steps in the DLS 148 * file to our internal 0.75 dB steps. The value is calculated 149 * as follows: 150 * 151 * 32768 / (10 * <step-size in dB>) 152 * 153 * FILTER_RESONANCE_NUM_ENTRIES is the number of entries in the table 154*/ 155#define FILTER_Q_CONVERSION_FACTOR 4369 156#define FILTER_RESONANCE_NUM_ENTRIES 31 157 158/* 159 * Multiplier to convert DLS gain units (10ths of a dB) to a 160 * power-of-two exponent for conversion to linear gain using our 161 * piece-wise linear approximator. Note that we ignore the lower 162 * 16-bits of the DLS gain value. The result is a 10-bit fraction 163 * that works with the EAS_LogToLinear16 function. 164 * 165 * DLS_GAIN_FACTOR = (2^18) / (200 * log10(2)) 166 */ 167#define DLS_GAIN_FACTOR 4354 168#define DLS_GAIN_SHIFT 8 169 170/* 171 * Reciprocal of 10 for quick divide by 10's 172 * 173 * DLS_GAIN_FACTOR = (2^18) / (200 * log10(2)) 174 */ 175#define DLS_DIV_10_FACTOR 3277 176#define DLS_DIV_10_SHIFT 16 177 178/* 179 * Multiplier to convert DLS time cents units to a power-of-two 180 * exponent for conversion to absolute time units using our 181 * piece-wise linear approximator. 182 * 183 * DLS_TIME_FACTOR = (2^22) / 1200 184 */ 185#define DLS_TIME_FACTOR 3495 186#define DLS_TIME_SHIFT 22 187 188 189/* LFO limits */ 190#define MAX_LFO_FREQUENCY_IN_HERTZ 20 191#define MIN_LFO_FREQUENCY_IN_HERTZ 0.1 192#define MAX_LFO_FREQUENCY_IN_PITCHCENTS 1549 193#define MIN_LFO_FREQUENCY_IN_PITCHCENTS -7624 194#define MAX_LFO_AMPLITUDE_DEPTH 12 /* in dB, DLS2.1 p 31*/ 195#define MIN_LFO_AMPLITUDE_DEPTH -12 /* in dB, DLS2.1 p 31*/ 196 197/* add to pitch cents before pow(2.0, n) to convert to frequency */ 198#define ABSOLUTE_PITCH_BIAS 238395828 199 200#define A5_PITCH_OFFSET 6900 201 202/* 203CHUNK_TYPE is a macro that converts the 4 input args into a 32-bit int 204where 205argument a is placed at the MSB location and 206argument d is placed at the LSB location. 207This is useful for determining the DLS chunk types 208*/ 209#define CHUNK_TYPE(a,b,c,d) ( \ 210 ( ((EAS_U32)(a) & 0xFF) << 24 ) \ 211 + ( ((EAS_U32)(b) & 0xFF) << 16 ) \ 212 + ( ((EAS_U32)(c) & 0xFF) << 8 ) \ 213 + ( ((EAS_U32)(d) & 0xFF) ) ) 214 215#define CHUNK_RIFF CHUNK_TYPE('R','I','F','F') 216#define CHUNK_DLS CHUNK_TYPE('D','L','S',' ') 217#define CHUNK_CDL CHUNK_TYPE('c','d','l',' ') 218#define CHUNK_VERS CHUNK_TYPE('v','e','r','s') 219#define CHUNK_DLID CHUNK_TYPE('d','l','i','d') 220#define CHUNK_LIST CHUNK_TYPE('L','I','S','T') 221#define CHUNK_COLH CHUNK_TYPE('c','o','l','h') 222#define CHUNK_LINS CHUNK_TYPE('l','i','n','s') 223#define CHUNK_PTBL CHUNK_TYPE('p','t','b','l') 224#define CHUNK_WVPL CHUNK_TYPE('w','v','p','l') 225#define CHUNK_INFO CHUNK_TYPE('I','N','F','O') 226#define CHUNK_INAM CHUNK_TYPE('I','N','A','M') 227#define CHUNK_INS CHUNK_TYPE('i','n','s',' ') 228#define CHUNK_INSH CHUNK_TYPE('i','n','s','h') 229#define CHUNK_LRGN CHUNK_TYPE('l','r','g','n') 230#define CHUNK_RGN CHUNK_TYPE('r','g','n',' ') 231#define CHUNK_RGN2 CHUNK_TYPE('r','g','n','2') 232#define CHUNK_RGNH CHUNK_TYPE('r','g','n','h') 233#define CHUNK_WSMP CHUNK_TYPE('w','s','m','p') 234#define CHUNK_WLNK CHUNK_TYPE('w','l','n','k') 235#define CHUNK_LART CHUNK_TYPE('l','a','r','t') 236#define CHUNK_LAR2 CHUNK_TYPE('l','a','r','2') 237#define CHUNK_ART1 CHUNK_TYPE('a','r','t','1') 238#define CHUNK_ART2 CHUNK_TYPE('a','r','t','2') 239#define CHUNK_WAVE CHUNK_TYPE('w','a','v','e') 240#define CHUNK_FMT CHUNK_TYPE('f','m','t',' ') 241#define CHUNK_DATA CHUNK_TYPE('d','a','t','a') 242#define CHUNK_DMPR CHUNK_TYPE('d','m','p','r') 243 244 245#define WAVE_FORMAT_PCM 0x0001 /* Microsoft PCM format, see DLS2.1 p60 */ 246#define WAVE_FORMAT_EXTENSIBLE 0xffff 247 248/* defines for wave table structures */ 249 250/* initialize each articulation structure to a harmless state */ 251/* change art values after we've determined EAS internals */ 252#define DEFAULT_DLS_FILTER_CUTOFF_FREQUENCY 0x7FFF /* DLS2.1, p 31 means leave filter off */ 253 254/**********/ 255 256/* define the waves that we expect to generate instead of store */ 257/* NOTE: our comparison routine converts the input string 258to lowercase, so the following comparison values should all 259be in lowercase. 260*/ 261#define STRING_NOISE "noise" 262 263 264/*------------------------------------ 265 * type definitions 266 *------------------------------------ 267*/ 268#ifdef _STANDALONE_CONVERTER 269typedef struct s_dls_params 270{ 271 EAS_INT sampleRate; 272 EAS_INT samplesPerFrame; 273 EAS_INT bitDepth; 274 double ditherLevel; 275 double ditherFilterCoeff; 276 EAS_BOOL compatibility; 277 EAS_BOOL encodeADPCM; 278} S_DLS_PARAMS; 279#endif 280 281 282/* function prototypes */ 283EAS_RESULT DLSParser (EAS_HW_DATA_HANDLE hwInstData, EAS_FILE_HANDLE fileHandle, EAS_I32 offset, S_DLS **pDLS); 284EAS_RESULT DLSCleanup (EAS_HW_DATA_HANDLE hwInstData, S_DLS *pDLS); 285void DLSAddRef (S_DLS *pDLS); 286EAS_I16 ConvertDelay (EAS_I32 timeCents); 287EAS_I16 ConvertRate (EAS_I32 timeCents); 288 289 290#ifdef _STANDALONE_CONVERTER 291void DLSConvParams (S_DLS_PARAMS *pParams, EAS_BOOL set); 292#endif 293 294#endif 295 296