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Reinstated preprocessor code for munging input channel strings for SPDIF

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This commit is contained in:
Ross Owen
2014-07-04 12:19:15 +01:00
parent 30f9633315
commit 5e5b4576d0
1 changed files with 286 additions and 21 deletions
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271
module_usb_audio/endpoint0/descriptors.h
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@@ -525,67 +525,332 @@ StringDescTable_t g_strTable =
#endif #endif
#if (NUM_USB_CHAN_OUT > 18) #if (NUM_USB_CHAN_OUT > 18)
#error NUM_USB_CHAN > 18 #error NUM_USB_CHAN_OUT > 18
#endif #endif
/*** INPUT CHANNEL STRINGS ***/
#if (NUM_USB_CHAN_IN > 0) #if (NUM_USB_CHAN_IN > 0)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX == 0)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX < I2S_CHANS_ADC)
/* I2S/SPDIF overlap */
.inputChanStr_1 = "Analogue 1/SPDIF 1",
#else
.inputChanStr_1 = "S/PDIF 1",
#endif
#else
.inputChanStr_1 = "Analogue 1", .inputChanStr_1 = "Analogue 1",
#endif #endif
#endif
#if (NUM_USB_CHAN_IN > 1) #if (NUM_USB_CHAN_IN > 1)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX == 1)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_2 = "Analogue 2/SPDIF 1",
#else
.inputChanStr_2 = "S/PDIF 1",
#endif
#elif defined(SPDIF_RX) && (SPDIF_RX_INDEX == 0)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_2 = "Analogue 2/SPDIF 2",
#else
.inputChanStr_2 = "S/PDIF 2",
#endif
#else
.inputChanStr_2 = "Analogue 2", .inputChanStr_2 = "Analogue 2",
#endif #endif
#endif
#if (NUM_USB_CHAN_IN > 2) #if (NUM_USB_CHAN_IN > 2)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX == 2)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_3 = "Analogue 3/SPDIF 1",
#else
.inputChanStr_3 = "S/PDIF 1",
#endif
#elif defined(SPDIF_RX) && (SPDIF_RX_INDEX == 1)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_3 = "Analogue 3/SPDIF 2",
#else
.inputChanStr_3 = "S/PDIF 2",
#endif
#else
.inputChanStr_3 = "Analogue 3", .inputChanStr_3 = "Analogue 3",
#endif #endif
#endif
#if (NUM_USB_CHAN_IN > 3) #if (NUM_USB_CHAN_IN > 3)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX == 3)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_4 = "Analogue 4/SPDIF 1",
#else
.inputChanStr_4 = "S/PDIF 1",
#endif
#elif defined(SPDIF_RX) && (SPDIF_RX_INDEX == 2)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_4 = "Analogue 4/SPDIF 2",
#else
.inputChanStr_4 = "S/PDIF 2",
#endif
#else
.inputChanStr_4 = "Analogue 4", .inputChanStr_4 = "Analogue 4",
#endif #endif
#endif
#if (NUM_USB_CHAN_IN > 4) #if (NUM_USB_CHAN_IN > 4)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX == 4)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_5 = "Analogue 5/SPDIF 1",
#else
.inputChanStr_5 = "S/PDIF 1",
#endif
#elif defined(SPDIF_RX) && (SPDIF_RX_INDEX == 3)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_5 = "Analogue 5/SPDIF 2",
#else
.inputChanStr_5 = "S/PDIF 2",
#endif
#else
.inputChanStr_5 = "Analogue 5", .inputChanStr_5 = "Analogue 5",
#endif #endif
#endif
#if (NUM_USB_CHAN_IN > 5) #if (NUM_USB_CHAN_IN > 5)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX == 5)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_6 = "Analogue 6/SPDIF 1",
#else
.inputChanStr_6 = "S/PDIF 1",
#endif
#elif defined(SPDIF_RX) && (SPDIF_RX_INDEX == 4)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_6 = "Analogue 6/SPDIF 2",
#else
.inputChanStr_6 = "S/PDIF 2",
#endif
#else
.inputChanStr_6 = "Analogue 6", .inputChanStr_6 = "Analogue 6",
#endif #endif
#endif
#if (NUM_USB_CHAN_IN > 6) #if (NUM_USB_CHAN_IN > 6)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX == 6)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_7 = "Analogue 7/SPDIF 1",
#else
.inputChanStr_7 = "S/PDIF 1",
#endif
#elif defined(SPDIF_RX) && (SPDIF_RX_INDEX == 5)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_7 = "Analogue 7/SPDIF 2",
#else
.inputChanStr_7 = "S/PDIF 2",
#endif
#else
.inputChanStr_7 = "Analogue 7", .inputChanStr_7 = "Analogue 7",
#endif #endif
#endif
#if (NUM_USB_CHAN_IN > 7) #if (NUM_USB_CHAN_IN > 7)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX == 7)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_8 = "Analogue 8/SPDIF 1",
#else
.inputChanStr_8 = "S/PDIF 1",
#endif
#elif defined(SPDIF_RX) && (SPDIF_RX_INDEX == 6)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_8 = "Analogue 8/SPDIF 2",
#else
.inputChanStr_8 = "S/PDIF 2",
#endif
#else
.inputChanStr_8 = "Analogue 8", .inputChanStr_8 = "Analogue 8",
#endif #endif
#endif
#if (NUM_USB_CHAN_IN > 8) #if (NUM_USB_CHAN_IN > 8)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX == 8)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_9 = "Analogue 9/SPDIF 1",
#else
.inputChanStr_9 = "S/PDIF 1",
#endif
#elif defined(SPDIF_RX) && (SPDIF_RX_INDEX == 7)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_9 = "Analogue 9/SPDIF 2",
#else
.inputChanStr_9 = "S/PDIF 2",
#endif
#else
.inputChanStr_9 = "Analogue 9", .inputChanStr_9 = "Analogue 9",
#endif #endif
#endif
#if (NUM_USB_CHAN_IN > 9) #if (NUM_USB_CHAN_IN > 9)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX == 9)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_10 = "Analogue 10/SPDIF 1",
#else
.inputChanStr_10 = "S/PDIF 1",
#endif
#elif defined(SPDIF_RX) && (SPDIF_RX_INDEX == 8)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_10 = "Analogue 10/SPDIF 2",
#else
.inputChanStr_10 = "S/PDIF 2",
#endif
#else
.inputChanStr_10 = "Analogue 10", .inputChanStr_10 = "Analogue 10",
#endif #endif
#endif
#if (NUM_USB_CHAN_IN > 10) #if (NUM_USB_CHAN_IN > 10)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX == 10)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_11 = "Analogue 11/SPDIF 1",
#else
.inputChanStr_11 = "S/PDIF 1",
#endif
#elif defined(SPDIF_RX) && (SPDIF_RX_INDEX == 9)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_11 = "Analogue 11/SPDIF 2",
#else
.inputChanStr_11 = "S/PDIF 2",
#endif
#else
.inputChanStr_11 = "Analogue 11", .inputChanStr_11 = "Analogue 11",
#endif #endif
#endif
#if (NUM_USB_CHAN_IN > 11) #if (NUM_USB_CHAN_IN > 11)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX == 11)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_12 = "Analogue 12/SPDIF 1",
#else
.inputChanStr_12 = "S/PDIF 1",
#endif
#elif defined(SPDIF_RX) && (SPDIF_RX_INDEX == 10)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_12 = "Analogue 12/SPDIF 2",
#else
.inputChanStr_12 = "S/PDIF 2",
#endif
#else
.inputChanStr_12 = "Analogue 12", .inputChanStr_12 = "Analogue 12",
#endif #endif
#endif
#if (NUM_USB_CHAN_IN > 12) #if (NUM_USB_CHAN_IN > 12)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX == 12)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_13 = "Analogue 13/SPDIF 1",
#else
.inputChanStr_13 = "S/PDIF 1",
#endif
#elif defined(SPDIF_RX) && (SPDIF_RX_INDEX == 11)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_13 = "Analogue 13/SPDIF 2",
#else
.inputChanStr_13 = "S/PDIF 2",
#endif
#else
.inputChanStr_13 = "Analogue 13", .inputChanStr_13 = "Analogue 13",
#endif #endif
#endif
#if (NUM_USB_CHAN_IN > 13) #if (NUM_USB_CHAN_IN > 13)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX == 13)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_14 = "Analogue 14/SPDIF 1",
#else
.inputChanStr_14 = "S/PDIF 1",
#endif
#elif defined(SPDIF_RX) && (SPDIF_RX_INDEX == 12)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_14 = "Analogue 14/SPDIF 2",
#else
.inputChanStr_14 = "S/PDIF 2",
#endif
#else
.inputChanStr_14 = "Analogue 14", .inputChanStr_14 = "Analogue 14",
#endif #endif
#endif
#if (NUM_USB_CHAN_IN > 14) #if (NUM_USB_CHAN_IN > 14)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX == 14)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_15 = "Analogue 15/SPDIF 1",
#else
.inputChanStr_15 = "S/PDIF 1",
#endif
#elif defined(SPDIF_RX) && (SPDIF_RX_INDEX == 13)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_15 = "Analogue 15/SPDIF 2",
#else
.inputChanStr_15 = "S/PDIF 2",
#endif
#else
.inputChanStr_15 = "Analogue 15", .inputChanStr_15 = "Analogue 15",
#endif #endif
#endif
#if (NUM_USB_CHAN_IN > 15) #if (NUM_USB_CHAN_IN > 15)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX == 15)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_16 = "Analogue 16/SPDIF 1",
#else
.inputChanStr_16 = "S/PDIF 1",
#endif
#elif defined(SPDIF_RX) && (SPDIF_RX_INDEX == 14)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_16 = "Analogue 16/SPDIF 2",
#else
.inputChanStr_16 = "S/PDIF 2",
#endif
#else
.inputChanStr_16 = "Analogue 16", .inputChanStr_16 = "Analogue 16",
#endif #endif
#endif
#if (NUM_USB_CHAN_IN > 16) #if (NUM_USB_CHAN_IN > 16)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX == 16)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_17 = "Analogue 17/SPDIF 1",
#else
.inputChanStr_17 = "S/PDIF 1",
#endif
#elif defined(SPDIF_RX) && (SPDIF_RX_INDEX == 15)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_17 = "Analogue 17/SPDIF 2",
#else
.inputChanStr_17 = "S/PDIF 2",
#endif
#else
.inputChanStr_17 = "Analogue 17", .inputChanStr_17 = "Analogue 17",
#endif #endif
#endif
#if (NUM_USB_CHAN_IN > 17) #if (NUM_USB_CHAN_IN > 17)
#if defined(SPDIF_RX) && (SPDIF_RX_INDEX == 17)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_18 = "Analogue 18/SPDIF 1",
#else
.inputChanStr_18 = "S/PDIF 1",
#endif
#elif defined(SPDIF_RX) && (SPDIF_RX_INDEX == 16)
#if(SPDIF_RX_INDEX < I2S_CHANS_ADC)
.inputChanStr_18 = "Analogue 18/SPDIF 2",
#else
.inputChanStr_18 = "S/PDIF 2",
#endif
#else
.inputChanStr_18 = "Analogue 18", .inputChanStr_18 = "Analogue 18",
#endif #endif
#if (NUM_USB_CHAN_IN > 18)
#error NUM_USB_CHAN > 18
#endif #endif
#if (NUM_USB_CHAN_IN > 18)
#error NUM_USB_CHAN_IN > 18
#endif
.iAPInterfaceStr = "iAP Interface", .iAPInterfaceStr = "iAP Interface",
}; };