driver/rsdIntrinsicConvolve5x5.cpp - platform/frameworks/rs - Git at Google

 /*
  * Copyright (C) 2012 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */


 #include "rsdCore.h"
 #include "rsdIntrinsics.h"
 #include "rsdAllocation.h"

 #include "rsdIntrinsicInlines.h"

 using namespace android;
 using namespace android::renderscript;

 struct ConvolveParams {
     float fp[28];
     short ip[28];
     ObjectBaseRef<Allocation> alloc;
 };

 static void Convolve5x5_Bind(const Context *dc, const Script *script,
                              void * intrinsicData, uint32_t slot, Allocation *data) {
     ConvolveParams *cp = (ConvolveParams *)intrinsicData;
     rsAssert(slot == 1);
     cp->alloc.set(data);
 }

 static void Convolve5x5_SetVar(const Context *dc, const Script *script, void * intrinsicData,
                                uint32_t slot, void *data, size_t dataLength) {
     ConvolveParams *cp = (ConvolveParams *)intrinsicData;

     rsAssert(slot == 0);
     memcpy (cp->fp, data, dataLength);
     for(int ct=0; ct < 25; ct++) {
         cp->ip[ct] = (short)(cp->fp[ct] * 255.f + 0.5f);
     }
 }


 static void One(const RsForEachStubParamStruct *p, uint32_t x, uchar4 *out,
                 const uchar4 *py0, const uchar4 *py1, const uchar4 *py2, const uchar4 *py3, const uchar4 *py4,
                 const float* coeff) {

     uint32_t x0 = rsMax((int32_t)x-2, 0);
     uint32_t x1 = rsMax((int32_t)x-1, 0);
     uint32_t x2 = x;
     uint32_t x3 = rsMin((int32_t)x+1, (int32_t)(p->dimX-1));
     uint32_t x4 = rsMin((int32_t)x+2, (int32_t)(p->dimX-1));

     float4 px = convert_float4(py0[x0]) * coeff[0] +
                 convert_float4(py0[x1]) * coeff[1] +
                 convert_float4(py0[x2]) * coeff[2] +
                 convert_float4(py0[x3]) * coeff[3] +
                 convert_float4(py0[x4]) * coeff[4] +

                 convert_float4(py1[x0]) * coeff[5] +
                 convert_float4(py1[x1]) * coeff[6] +
                 convert_float4(py1[x2]) * coeff[7] +
                 convert_float4(py1[x3]) * coeff[8] +
                 convert_float4(py1[x4]) * coeff[9] +

                 convert_float4(py2[x0]) * coeff[10] +
                 convert_float4(py2[x1]) * coeff[11] +
                 convert_float4(py2[x2]) * coeff[12] +
                 convert_float4(py2[x3]) * coeff[13] +
                 convert_float4(py2[x4]) * coeff[14] +

                 convert_float4(py3[x0]) * coeff[15] +
                 convert_float4(py3[x1]) * coeff[16] +
                 convert_float4(py3[x2]) * coeff[17] +
                 convert_float4(py3[x3]) * coeff[18] +
                 convert_float4(py3[x4]) * coeff[19] +

                 convert_float4(py4[x0]) * coeff[20] +
                 convert_float4(py4[x1]) * coeff[21] +
                 convert_float4(py4[x2]) * coeff[22] +
                 convert_float4(py4[x3]) * coeff[23] +
                 convert_float4(py4[x4]) * coeff[24];

     px = clamp(px, 0.f, 255.f);
     uchar4 o = {(uchar)px.x, (uchar)px.y, (uchar)px.z, (uchar)px.w};
     *out = o;
 }

 extern "C" void rsdIntrinsicConvolve5x5_K(void *dst, const void *y0, const void *y1,
                                           const void *y2, const void *y3, const void *y4,
                                           const short *coef, uint32_t count);

 static void Convolve5x5_uchar4(const RsForEachStubParamStruct *p,
                                     uint32_t xstart, uint32_t xend,
                                     uint32_t instep, uint32_t outstep) {
     ConvolveParams *cp = (ConvolveParams *)p->usr;
     if (!cp->alloc.get()) {
         ALOGE("Convolve5x5 executed without input, skipping");
         return;
     }
     DrvAllocation *din = (DrvAllocation *)cp->alloc->mHal.drv;
     const uchar *pin = (const uchar *)din->lod[0].mallocPtr;

     uint32_t y0 = rsMax((int32_t)p->y-2, 0);
     uint32_t y1 = rsMax((int32_t)p->y-1, 0);
     uint32_t y2 = p->y;
     uint32_t y3 = rsMin((int32_t)p->y+1, (int32_t)(p->dimY-1));
     uint32_t y4 = rsMin((int32_t)p->y+2, (int32_t)(p->dimY-1));

     const uchar4 *py0 = (const uchar4 *)(pin + din->lod[0].stride * y0);
     const uchar4 *py1 = (const uchar4 *)(pin + din->lod[0].stride * y1);
     const uchar4 *py2 = (const uchar4 *)(pin + din->lod[0].stride * y2);
     const uchar4 *py3 = (const uchar4 *)(pin + din->lod[0].stride * y3);
     const uchar4 *py4 = (const uchar4 *)(pin + din->lod[0].stride * y4);

     uchar4 *out = (uchar4 *)p->out;
     uint32_t x1 = xstart;
     uint32_t x2 = xend;

     while((x1 < x2) && (x1 < 2)) {
         One(p, x1, out, py0, py1, py2, py3, py4, cp->fp);
         out++;
         x1++;
     }

 #if defined(ARCH_ARM_HAVE_NEON)
     if((x1 + 3) < x2) {
         uint32_t len = (x2 - x1 - 3) >> 1;
         rsdIntrinsicConvolve5x5_K(out, py0+x1-2, py1+x1-2, py2+x1-2, py3+x1-2, py4+x1-2, cp->ip, len);
         out += len << 1;
         x1 += len << 1;
     }
 #endif

     while(x1 < x2) {
         One(p, x1, out, py0, py1, py2, py3, py4, cp->fp);
         out++;
         x1++;
     }
 }

 void * rsdIntrinsic_InitConvolve5x5(const android::renderscript::Context *dc,
                                     android::renderscript::Script *script,
                                     RsdIntriniscFuncs_t *funcs) {

     script->mHal.info.exportedVariableCount = 2;
     funcs->setVarObj = Convolve5x5_Bind;
     funcs->setVar = Convolve5x5_SetVar;
     funcs->root = Convolve5x5_uchar4;

     ConvolveParams *cp = (ConvolveParams *)calloc(1, sizeof(ConvolveParams));
     for(int ct=0; ct < 25; ct++) {
         cp->fp[ct] = 1.f / 25.f;
         cp->ip[ct] = (short)(cp->fp[ct] * 255.f + 0.5f);
     }
     return cp;
 }
	/*
	* Copyright (C) 2012 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/


	#include "rsdCore.h"
	#include "rsdIntrinsics.h"
	#include "rsdAllocation.h"

	#include "rsdIntrinsicInlines.h"

	using namespace android;
	using namespace android::renderscript;

	struct ConvolveParams {
	float fp[28];
	short ip[28];
	ObjectBaseRef<Allocation> alloc;
	};

	static void Convolve5x5_Bind(const Context dc, const Script script,
	void * intrinsicData, uint32_t slot, Allocation *data) {
	ConvolveParams cp = (ConvolveParams )intrinsicData;
	rsAssert(slot == 1);
	cp->alloc.set(data);
	}

	static void Convolve5x5_SetVar(const Context dc, const Script script, void * intrinsicData,
	uint32_t slot, void *data, size_t dataLength) {
	ConvolveParams cp = (ConvolveParams )intrinsicData;

	rsAssert(slot == 0);
	memcpy (cp->fp, data, dataLength);
	for(int ct=0; ct < 25; ct++) {
	cp->ip[ct] = (short)(cp->fp[ct] * 255.f + 0.5f);
	}
	}


	static void One(const RsForEachStubParamStruct p, uint32_t x, uchar4 out,
	const uchar4 py0, const uchar4 py1, const uchar4 py2, const uchar4 py3, const uchar4 *py4,
	const float* coeff) {

	uint32_t x0 = rsMax((int32_t)x-2, 0);
	uint32_t x1 = rsMax((int32_t)x-1, 0);
	uint32_t x2 = x;
	uint32_t x3 = rsMin((int32_t)x+1, (int32_t)(p->dimX-1));
	uint32_t x4 = rsMin((int32_t)x+2, (int32_t)(p->dimX-1));

	float4 px = convert_float4(py0[x0]) * coeff[0] +
	convert_float4(py0[x1]) * coeff[1] +
	convert_float4(py0[x2]) * coeff[2] +
	convert_float4(py0[x3]) * coeff[3] +
	convert_float4(py0[x4]) * coeff[4] +

	convert_float4(py1[x0]) * coeff[5] +
	convert_float4(py1[x1]) * coeff[6] +
	convert_float4(py1[x2]) * coeff[7] +
	convert_float4(py1[x3]) * coeff[8] +
	convert_float4(py1[x4]) * coeff[9] +

	convert_float4(py2[x0]) * coeff[10] +
	convert_float4(py2[x1]) * coeff[11] +
	convert_float4(py2[x2]) * coeff[12] +
	convert_float4(py2[x3]) * coeff[13] +
	convert_float4(py2[x4]) * coeff[14] +

	convert_float4(py3[x0]) * coeff[15] +
	convert_float4(py3[x1]) * coeff[16] +
	convert_float4(py3[x2]) * coeff[17] +
	convert_float4(py3[x3]) * coeff[18] +
	convert_float4(py3[x4]) * coeff[19] +

	convert_float4(py4[x0]) * coeff[20] +
	convert_float4(py4[x1]) * coeff[21] +
	convert_float4(py4[x2]) * coeff[22] +
	convert_float4(py4[x3]) * coeff[23] +
	convert_float4(py4[x4]) * coeff[24];

	px = clamp(px, 0.f, 255.f);
	uchar4 o = {(uchar)px.x, (uchar)px.y, (uchar)px.z, (uchar)px.w};
	*out = o;
	}

	extern "C" void rsdIntrinsicConvolve5x5_K(void dst, const void y0, const void *y1,
	const void y2, const void y3, const void *y4,
	const short *coef, uint32_t count);

	static void Convolve5x5_uchar4(const RsForEachStubParamStruct *p,
	uint32_t xstart, uint32_t xend,
	uint32_t instep, uint32_t outstep) {
	ConvolveParams cp = (ConvolveParams )p->usr;
	if (!cp->alloc.get()) {
	ALOGE("Convolve5x5 executed without input, skipping");
	return;
	}
	DrvAllocation din = (DrvAllocation )cp->alloc->mHal.drv;
	const uchar pin = (const uchar )din->lod[0].mallocPtr;

	uint32_t y0 = rsMax((int32_t)p->y-2, 0);
	uint32_t y1 = rsMax((int32_t)p->y-1, 0);
	uint32_t y2 = p->y;
	uint32_t y3 = rsMin((int32_t)p->y+1, (int32_t)(p->dimY-1));
	uint32_t y4 = rsMin((int32_t)p->y+2, (int32_t)(p->dimY-1));

	const uchar4 py0 = (const uchar4 )(pin + din->lod[0].stride * y0);
	const uchar4 py1 = (const uchar4 )(pin + din->lod[0].stride * y1);
	const uchar4 py2 = (const uchar4 )(pin + din->lod[0].stride * y2);
	const uchar4 py3 = (const uchar4 )(pin + din->lod[0].stride * y3);
	const uchar4 py4 = (const uchar4 )(pin + din->lod[0].stride * y4);

	uchar4 out = (uchar4 )p->out;
	uint32_t x1 = xstart;
	uint32_t x2 = xend;

	while((x1 < x2) && (x1 < 2)) {
	One(p, x1, out, py0, py1, py2, py3, py4, cp->fp);
	out++;
	x1++;
	}

	#if defined(ARCH_ARM_HAVE_NEON)
	if((x1 + 3) < x2) {
	uint32_t len = (x2 - x1 - 3) >> 1;
	rsdIntrinsicConvolve5x5_K(out, py0+x1-2, py1+x1-2, py2+x1-2, py3+x1-2, py4+x1-2, cp->ip, len);
	out += len << 1;
	x1 += len << 1;
	}
	#endif

	while(x1 < x2) {
	One(p, x1, out, py0, py1, py2, py3, py4, cp->fp);
	out++;
	x1++;
	}
	}

	void * rsdIntrinsic_InitConvolve5x5(const android::renderscript::Context *dc,
	android::renderscript::Script *script,
	RsdIntriniscFuncs_t *funcs) {

	script->mHal.info.exportedVariableCount = 2;
	funcs->setVarObj = Convolve5x5_Bind;
	funcs->setVar = Convolve5x5_SetVar;
	funcs->root = Convolve5x5_uchar4;

	ConvolveParams cp = (ConvolveParams )calloc(1, sizeof(ConvolveParams));
	for(int ct=0; ct < 25; ct++) {
	cp->fp[ct] = 1.f / 25.f;
	cp->ip[ct] = (short)(cp->fp[ct] * 255.f + 0.5f);
	}
	return cp;
	}