/* * Copyright 2006 The Android Open Source Project * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkEmbossMaskFilter.h" #include "SkBlurMaskFilter.h" #include "SkBlurMask.h" #include "SkEmbossMask.h" #include "SkFlattenableBuffers.h" static inline int pin2byte(int n) { if (n < 0) { n = 0; } else if (n > 0xFF) { n = 0xFF; } return n; } SkMaskFilter* SkBlurMaskFilter::CreateEmboss(const SkScalar direction[3], SkScalar ambient, SkScalar specular, SkScalar blurRadius) { if (direction == NULL) { return NULL; } // ambient should be 0...1 as a scalar int am = pin2byte(SkScalarToFixed(ambient) >> 8); // specular should be 0..15.99 as a scalar int sp = pin2byte(SkScalarToFixed(specular) >> 12); SkEmbossMaskFilter::Light light; memcpy(light.fDirection, direction, sizeof(light.fDirection)); light.fAmbient = SkToU8(am); light.fSpecular = SkToU8(sp); return SkNEW_ARGS(SkEmbossMaskFilter, (light, blurRadius)); } /////////////////////////////////////////////////////////////////////////////// static void normalize(SkScalar v[3]) { SkScalar mag = SkScalarSquare(v[0]) + SkScalarSquare(v[1]) + SkScalarSquare(v[2]); mag = SkScalarSqrt(mag); for (int i = 0; i < 3; i++) { v[i] = SkScalarDiv(v[i], mag); } } SkEmbossMaskFilter::SkEmbossMaskFilter(const Light& light, SkScalar blurRadius) : fLight(light), fBlurRadius(blurRadius) { normalize(fLight.fDirection); } SkMask::Format SkEmbossMaskFilter::getFormat() { return SkMask::k3D_Format; } bool SkEmbossMaskFilter::filterMask(SkMask* dst, const SkMask& src, const SkMatrix& matrix, SkIPoint* margin) { SkScalar radius = matrix.mapRadius(fBlurRadius); if (!SkBlurMask::Blur(dst, src, radius, SkBlurMask::kInner_Style, SkBlurMask::kLow_Quality)) { return false; } dst->fFormat = SkMask::k3D_Format; if (margin) { margin->set(SkScalarCeil(radius), SkScalarCeil(radius)); } if (src.fImage == NULL) { return true; } // create a larger buffer for the other two channels (should force fBlur to do this for us) { uint8_t* alphaPlane = dst->fImage; size_t planeSize = dst->computeImageSize(); if (0 == planeSize) { return false; // too big to allocate, abort } dst->fImage = SkMask::AllocImage(planeSize * 3); memcpy(dst->fImage, alphaPlane, planeSize); SkMask::FreeImage(alphaPlane); } // run the light direction through the matrix... Light light = fLight; matrix.mapVectors((SkVector*)(void*)light.fDirection, (SkVector*)(void*)fLight.fDirection, 1); // now restore the length of the XY component // cast to SkVector so we can call setLength (this double cast silences alias warnings) SkVector* vec = (SkVector*)(void*)light.fDirection; vec->setLength(light.fDirection[0], light.fDirection[1], SkPoint::Length(fLight.fDirection[0], fLight.fDirection[1])); SkEmbossMask::Emboss(dst, light); // restore original alpha memcpy(dst->fImage, src.fImage, src.computeImageSize()); return true; } SkEmbossMaskFilter::SkEmbossMaskFilter(SkFlattenableReadBuffer& buffer) : SkMaskFilter(buffer) { SkASSERT(buffer.getArrayCount() == sizeof(Light)); buffer.readByteArray(&fLight); SkASSERT(fLight.fPad == 0); // for the font-cache lookup to be clean fBlurRadius = buffer.readScalar(); } void SkEmbossMaskFilter::flatten(SkFlattenableWriteBuffer& buffer) const { this->INHERITED::flatten(buffer); Light tmpLight = fLight; tmpLight.fPad = 0; // for the font-cache lookup to be clean buffer.writeByteArray(&tmpLight, sizeof(tmpLight)); buffer.writeScalar(fBlurRadius); } SK_DEFINE_FLATTENABLE_REGISTRAR(SkEmbossMaskFilter)