arm-wt-22k/lib_src/ARM-E_interpolate_loop_gnu.s - platform/external/sonivox - Git at Google

 @***********************************************************
 @ Function:    WT_Interpolate
 @ Processor:   ARM-E
 @ Description: the main synthesis function when fetching
 @			   wavetable samples.
 @              C-callable.
 @
 @ Usage:
 @	void WT_Interpolate(
 @		S_WT_VOICE *pWTVoice,
 @		S_WT_FRAME *pWTFrame);
 @
 @ Copyright Sonic Network Inc. 2004
 @****************************************************************
 @ Revision Control:
 @   $Revision: 496 $
 @   $Date: 2006-12-11 14:33:26 -0800 (Mon, 11 Dec 2006) $
 @****************************************************************
 @
 @   where:
 @	S_WT_VOICE *pWTVoice
 @	PASSED IN: r0
 @
 @	S_WT_FRAME *pWTFrame;
 @	PASSED IN: r1
 @****************************************************************

 	.include	"ARM_synth_constants_gnu.inc"

 	.arm
 	.text

 	.global	WT_Interpolate


 @ Register usage
 @ --------------
 pWTVoice	.req	r0
 pWTFrame	.req	r1

 numSamples	.req	r2
 phaseIncrement	.req	r3
 pOutputBuffer	.req	r4

 tmp0	.req	r1	@reuse register
 tmp1	.req	r5
 tmp2	.req	r6

 pLoopEnd	.req	r7
 pLoopStart	.req	r8

 pPhaseAccum	.req	r9
 phaseFrac	.req	r10
 phaseFracMask	.req	r11

 @SaveRegs	RLIST	{r4-r11,lr}
 @RestoreRegs	RLIST	{r4-r11,pc}

 	.func	WT_Interpolate
 WT_Interpolate:

 	STMFD	sp!,{r4-r11,lr}

 @
 @ Fetch parameters from structures
 @----------------------------------------------------------------

 	LDR		pOutputBuffer, [pWTFrame, #m_pAudioBuffer]
 	LDR		numSamples, [pWTFrame, #m_numSamples]

 	LDR		phaseIncrement, [pWTFrame, #m_phaseIncrement]
 	LDR		pPhaseAccum, [pWTVoice, #m_pPhaseAccum]
 	LDR		phaseFrac, [pWTVoice, #m_phaseFrac]
 	LDR		phaseFracMask,=PHASE_FRAC_MASK

 	LDR		pLoopStart, [pWTVoice, #m_pLoopStart]
 	LDR		pLoopEnd, [pWTVoice, #m_pLoopEnd]
 	ADD		pLoopEnd, pLoopEnd, #1					@ need loop end to equal last sample + 1

 InterpolationLoop:
 	SUBS	tmp0, pPhaseAccum, pLoopEnd		@ check for loop end
 	ADDGE	pPhaseAccum, pLoopStart, tmp0	@ loop back to start

 	.ifdef	SAMPLES_8_BIT
 	LDRSB	tmp0, [pPhaseAccum]				@ tmp0 = x0
 	LDRSB	tmp1, [pPhaseAccum, #1]			@ tmp1 = x1
 	.else
 	LDRSH	tmp0, [pPhaseAccum]				@ tmp0 = x0
 	LDRSH	tmp1, [pPhaseAccum, #2]			@ tmp1 = x1
 	.endif

 	ADD		tmp2, phaseIncrement, phaseFrac	@ increment pointer here to avoid pipeline stall

 	SUB		tmp1, tmp1, tmp0						@ tmp1 = x1 - x0
 	SMULBB	tmp1, phaseFrac, tmp1			@ tmp1 = phaseFrac * tmp2

 @ This section performs a gain adjustment of -12dB for 16-bit samples
 @ or +36dB for 8-bit samples. For a high quality synthesizer, the output
 @ can be set to full scale, however if the filter is used, it can overflow
 @ with certain coefficients and signal sources. In this case, either a
 @ saturation operation should take in the filter before scaling back to
 @ 16 bits or the signal path should be increased to 18 bits or more.

 	.ifdef	SAMPLES_8_BIT
 	MOV		tmp0, tmp0, LSL #6							@ boost 8-bit signal by 36dB
 	.else
 	MOV		tmp0, tmp0, ASR #2							@ reduce 16-bit signal by 12dB
 	.endif

 	ADD		tmp1, tmp0, tmp1, ASR #(NUM_EG1_FRAC_BITS-6)	@ tmp1 = tmp0 + (tmp1 >> (15-6))
 															@	   = x0 + f * (x1 - x0) == interpolated result

 	STRH	tmp1, [pOutputBuffer], #NEXT_OUTPUT_PCM	@ *pOutputBuffer++ = interpolated result

 @ carry overflow from fraction to integer portion
 	ADD	pPhaseAccum, pPhaseAccum, tmp2, LSR #(NUM_PHASE_FRAC_BITS - NEXT_INPUT_PCM_SHIFT)
 	AND	phaseFrac, tmp2, phaseFracMask		@ nphaseFrac = frac part

 	SUBS	numSamples, numSamples, #1
 	BGT		InterpolationLoop

 @ update and store phase
 	STR		pPhaseAccum, [pWTVoice, #m_pPhaseAccum]
 	STR		phaseFrac, [pWTVoice, #m_phaseFrac]

 	LDMFD	sp!,{r4-r11,lr}
 	BX		lr

 	.endfunc
 	.end
	@***********************************************************
	@ Function: WT_Interpolate
	@ Processor: ARM-E
	@ Description: the main synthesis function when fetching
	@ wavetable samples.
	@ C-callable.
	@
	@ Usage:
	@ void WT_Interpolate(
	@ S_WT_VOICE *pWTVoice,
	@ S_WT_FRAME *pWTFrame);
	@
	@ Copyright Sonic Network Inc. 2004
	@****************************************************************
	@ Revision Control:
	@ $Revision: 496 $
	@ $Date: 2006-12-11 14:33:26 -0800 (Mon, 11 Dec 2006) $
	@****************************************************************
	@
	@ where:
	@ S_WT_VOICE *pWTVoice
	@ PASSED IN: r0
	@
	@ S_WT_FRAME *pWTFrame;
	@ PASSED IN: r1
	@****************************************************************

	.include "ARM_synth_constants_gnu.inc"

	.arm
	.text

	.global WT_Interpolate


	@ Register usage
	@ --------------
	pWTVoice .req r0
	pWTFrame .req r1

	numSamples .req r2
	phaseIncrement .req r3
	pOutputBuffer .req r4

	tmp0 .req r1 @reuse register
	tmp1 .req r5
	tmp2 .req r6

	pLoopEnd .req r7
	pLoopStart .req r8

	pPhaseAccum .req r9
	phaseFrac .req r10
	phaseFracMask .req r11

	@SaveRegs RLIST {r4-r11,lr}
	@RestoreRegs RLIST {r4-r11,pc}

	.func WT_Interpolate
	WT_Interpolate:

	STMFD sp!,{r4-r11,lr}

	@
	@ Fetch parameters from structures
	@----------------------------------------------------------------

	LDR pOutputBuffer, [pWTFrame, #m_pAudioBuffer]
	LDR numSamples, [pWTFrame, #m_numSamples]

	LDR phaseIncrement, [pWTFrame, #m_phaseIncrement]
	LDR pPhaseAccum, [pWTVoice, #m_pPhaseAccum]
	LDR phaseFrac, [pWTVoice, #m_phaseFrac]
	LDR phaseFracMask,=PHASE_FRAC_MASK

	LDR pLoopStart, [pWTVoice, #m_pLoopStart]
	LDR pLoopEnd, [pWTVoice, #m_pLoopEnd]
	ADD pLoopEnd, pLoopEnd, #1 @ need loop end to equal last sample + 1

	InterpolationLoop:
	SUBS tmp0, pPhaseAccum, pLoopEnd @ check for loop end
	ADDGE pPhaseAccum, pLoopStart, tmp0 @ loop back to start

	.ifdef SAMPLES_8_BIT
	LDRSB tmp0, [pPhaseAccum] @ tmp0 = x0
	LDRSB tmp1, [pPhaseAccum, #1] @ tmp1 = x1
	.else
	LDRSH tmp0, [pPhaseAccum] @ tmp0 = x0
	LDRSH tmp1, [pPhaseAccum, #2] @ tmp1 = x1
	.endif

	ADD tmp2, phaseIncrement, phaseFrac @ increment pointer here to avoid pipeline stall

	SUB tmp1, tmp1, tmp0 @ tmp1 = x1 - x0
	SMULBB tmp1, phaseFrac, tmp1 @ tmp1 = phaseFrac * tmp2

	@ This section performs a gain adjustment of -12dB for 16-bit samples
	@ or +36dB for 8-bit samples. For a high quality synthesizer, the output
	@ can be set to full scale, however if the filter is used, it can overflow
	@ with certain coefficients and signal sources. In this case, either a
	@ saturation operation should take in the filter before scaling back to
	@ 16 bits or the signal path should be increased to 18 bits or more.

	.ifdef SAMPLES_8_BIT
	MOV tmp0, tmp0, LSL #6 @ boost 8-bit signal by 36dB
	.else
	MOV tmp0, tmp0, ASR #2 @ reduce 16-bit signal by 12dB
	.endif

	ADD tmp1, tmp0, tmp1, ASR #(NUM_EG1_FRAC_BITS-6) @ tmp1 = tmp0 + (tmp1 >> (15-6))
	@ = x0 + f * (x1 - x0) == interpolated result

	STRH tmp1, [pOutputBuffer], #NEXT_OUTPUT_PCM @ *pOutputBuffer++ = interpolated result

	@ carry overflow from fraction to integer portion
	ADD pPhaseAccum, pPhaseAccum, tmp2, LSR #(NUM_PHASE_FRAC_BITS - NEXT_INPUT_PCM_SHIFT)
	AND phaseFrac, tmp2, phaseFracMask @ nphaseFrac = frac part

	SUBS numSamples, numSamples, #1
	BGT InterpolationLoop

	@ update and store phase
	STR pPhaseAccum, [pWTVoice, #m_pPhaseAccum]
	STR phaseFrac, [pWTVoice, #m_phaseFrac]

	LDMFD sp!,{r4-r11,lr}
	BX lr

	.endfunc
	.end