src/core/SkRasterPipeline.cpp - skia - Git at Google

 /*
  * Copyright 2016 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "SkRasterPipeline.h"

 SkRasterPipeline::SkRasterPipeline() {}

 void SkRasterPipeline::append(SkRasterPipeline::Fn body_fn, const void* body_ctx,
                               SkRasterPipeline::Fn tail_fn, const void* tail_ctx) {
     // Each stage holds its own context and the next function to call.
     // So the pipeline itself has to hold onto the first function that starts the pipeline.
     (fBody.empty() ? fBodyStart : fBody.back().fNext) = body_fn;
     (fTail.empty() ? fTailStart : fTail.back().fNext) = tail_fn;

     // Each last stage starts with its next function set to JustReturn as a safety net.
     // It'll be overwritten by the next call to append().
     fBody.push_back({ &JustReturn, const_cast<void*>(body_ctx) });
     fTail.push_back({ &JustReturn, const_cast<void*>(tail_ctx) });
 }

 void SkRasterPipeline::extend(const SkRasterPipeline& src) {
     SkASSERT(src.fBody.count() == src.fTail.count());

     Fn body_fn = src.fBodyStart,
        tail_fn = src.fTailStart;
     for (int i = 0; i < src.fBody.count(); i++) {
         this->append(body_fn, src.fBody[i].fCtx,
                      tail_fn, src.fTail[i].fCtx);
         body_fn = src.fBody[i].fNext;
         tail_fn = src.fTail[i].fNext;
     }
 }

 void SkRasterPipeline::run(size_t x, size_t n) {
     // It's fastest to start uninitialized if the compilers all let us.  If not, next fastest is 0.
     Sk4f v;

     while (n >= 4) {
         fBodyStart(fBody.begin(), x, v,v,v,v, v,v,v,v);
         x += 4;
         n -= 4;
     }
     while (n > 0) {
         fTailStart(fTail.begin(), x, v,v,v,v, v,v,v,v);
         x += 1;
         n -= 1;
     }
 }

 void SK_VECTORCALL SkRasterPipeline::JustReturn(Stage*, size_t, Sk4f,Sk4f,Sk4f,Sk4f,
                                                                 Sk4f,Sk4f,Sk4f,Sk4f) {}
	/*
	* Copyright 2016 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "SkRasterPipeline.h"

	SkRasterPipeline::SkRasterPipeline() {}

	void SkRasterPipeline::append(SkRasterPipeline::Fn body_fn, const void* body_ctx,
	SkRasterPipeline::Fn tail_fn, const void* tail_ctx) {
	// Each stage holds its own context and the next function to call.
	// So the pipeline itself has to hold onto the first function that starts the pipeline.
	(fBody.empty() ? fBodyStart : fBody.back().fNext) = body_fn;
	(fTail.empty() ? fTailStart : fTail.back().fNext) = tail_fn;

	// Each last stage starts with its next function set to JustReturn as a safety net.
	// It'll be overwritten by the next call to append().
	fBody.push_back({ &JustReturn, const_cast<void*>(body_ctx) });
	fTail.push_back({ &JustReturn, const_cast<void*>(tail_ctx) });
	}

	void SkRasterPipeline::extend(const SkRasterPipeline& src) {
	SkASSERT(src.fBody.count() == src.fTail.count());

	Fn body_fn = src.fBodyStart,
	tail_fn = src.fTailStart;
	for (int i = 0; i < src.fBody.count(); i++) {
	this->append(body_fn, src.fBody[i].fCtx,
	tail_fn, src.fTail[i].fCtx);
	body_fn = src.fBody[i].fNext;
	tail_fn = src.fTail[i].fNext;
	}
	}

	void SkRasterPipeline::run(size_t x, size_t n) {
	// It's fastest to start uninitialized if the compilers all let us. If not, next fastest is 0.
	Sk4f v;

	while (n >= 4) {
	fBodyStart(fBody.begin(), x, v,v,v,v, v,v,v,v);
	x += 4;
	n -= 4;
	}
	while (n > 0) {
	fTailStart(fTail.begin(), x, v,v,v,v, v,v,v,v);
	x += 1;
	n -= 1;
	}
	}

	void SK_VECTORCALL SkRasterPipeline::JustReturn(Stage*, size_t, Sk4f,Sk4f,Sk4f,Sk4f,
	Sk4f,Sk4f,Sk4f,Sk4f) {}