/* * Copyright (C) 2008 The Android Open Source Project * Copyright (c) 2010-2012, Code Aurora Forum. All rights reserved. * * 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 #include "overlayCtrlData.h" #include "fb_priv.h" #include "gralloc_priv.h" //for interlace namespace overlay{ bool Ctrl::init(uint32_t fbnum) { // MDP/FD init if(!mMdp.init(fbnum)) { ALOGE("Ctrl failed to init fbnum=%d", fbnum); return false; } if(!getScreenInfo(mInfo)) { ALOGE("Ctrl failed to getScreenInfo"); return false; } return true; } bool Ctrl::setSource(const utils::PipeArgs& args) { return mMdp.setSource(args); } bool Ctrl::setPosition(const utils::Dim& dim) { if(!dim.check(mInfo.mFBWidth, mInfo.mFBHeight)) { ALOGE("Ctrl setPosition error in dim"); dim.dump(); return false; } if(!mMdp.setPosition(dim, mInfo.mFBWidth, mInfo.mFBHeight)) { ALOGE("Ctrl failed MDP setPosition"); return false; } return true; } bool Ctrl::setTransform(const utils::eTransform& orient, const bool& rotUsed) { if(!mMdp.setTransform(orient, rotUsed)) { ALOGE("Ctrl setTransform failed for Mdp"); return false; } return true; } bool Ctrl::setCrop(const utils::Dim& d) { if(!mMdp.setCrop(d)) { ALOGE("Data setCrop failed in MDP setCrop"); return false; } return true; } utils::ActionSafe* utils::ActionSafe::sActionSafe = NULL; utils::Dim Ctrl::getAspectRatio(const utils::Whf& whf) const { utils::Whf inWhf(whf.w, whf.h, mMdp.getSrcWhf().format); utils::Whf tmpwhf(inWhf); uint32_t fbWidth = mInfo.mFBWidth; uint32_t fbHeight = mInfo.mFBHeight; /* Calculate the width and height if it is YUV TILE format*/ if (inWhf.format == HAL_PIXEL_FORMAT_YCbCr_420_SP_TILED) { tmpwhf.w = whf.w - (utils::alignup(whf.w, 64) - whf.w); tmpwhf.h = whf.h - (utils::alignup(whf.h, 32) - whf.h); } if (inWhf.w * fbHeight > fbWidth * inWhf.h) { inWhf.h = fbWidth * inWhf.h / inWhf.w; inWhf.w = fbWidth; } else if (inWhf.w * fbHeight < fbWidth * inWhf.h) { inWhf.w = fbHeight * inWhf.w / inWhf.h; inWhf.h = fbHeight; } else { inWhf.w = fbWidth; inWhf.h = fbHeight; } /* Scaling of upto a max of 8 times supported */ if (inWhf.w > (tmpwhf.w * utils::HW_OV_MAGNIFICATION_LIMIT)){ inWhf.w = utils::HW_OV_MAGNIFICATION_LIMIT * tmpwhf.w; } if(inWhf.h > (tmpwhf.h * utils::HW_OV_MAGNIFICATION_LIMIT)) { inWhf.h = utils::HW_OV_MAGNIFICATION_LIMIT * tmpwhf.h; } if (inWhf.w > fbWidth) inWhf.w = fbWidth; if (inWhf.h > fbHeight) inWhf.h = fbHeight; float asWidth = utils::ActionSafe::getInstance()->getHeight(); float asHeight = utils::ActionSafe::getInstance()->getWidth(); inWhf.w = inWhf.w * (1.0f - asWidth / 100.0f); inWhf.h = inWhf.h * (1.0f - asHeight / 100.0f); uint32_t x = (fbWidth - inWhf.w) / 2.0; uint32_t y = (fbHeight - inWhf.h) / 2.0; return utils::Dim(x, y, inWhf.w, inWhf.h); } utils::FrameBufferInfo* utils::FrameBufferInfo::sFBInfoInstance = 0; // This function gets the destination position for external display // based on the position and aspect ratio of the primary utils::Dim Ctrl::getAspectRatio(const utils::Dim& dim) const { float priWidth = utils::FrameBufferInfo::getInstance()->getWidth(); float priHeight = utils::FrameBufferInfo::getInstance()->getHeight(); float fbWidth = mInfo.mFBWidth; float fbHeight = mInfo.mFBHeight; float wRatio = 1.0; float hRatio = 1.0; float xRatio = 1.0; float yRatio = 1.0; utils::Dim inDim(dim); int xPos = 0; int yPos = 0; int tmp = 0; utils::Dim tmpDim; switch(inDim.o) { case MDP_ROT_NOP: case MDP_ROT_180: { utils::Whf whf((uint32_t) priWidth, (uint32_t) priHeight, 0); tmpDim = getAspectRatio(whf); xPos = tmpDim.x; yPos = tmpDim.y; fbWidth = tmpDim.w; fbHeight = tmpDim.h; if (inDim.o == MDP_ROT_180) { inDim.x = priWidth - (inDim.x + inDim.w); inDim.y = priHeight - (inDim.y + inDim.h); } break; } case MDP_ROT_90: case MDP_ROT_270: { if(inDim.o == MDP_ROT_90) { tmp = inDim.y; inDim.y = priWidth - (inDim.x + inDim.w); inDim.x = tmp; } else if (inDim.o == MDP_ROT_270) { tmp = inDim.x; inDim.x = priHeight - (inDim.y + inDim.h); inDim.y = tmp; } // Swap the destination width/height utils::swapWidthHeight(inDim.w, inDim.h); // Swap width/height for primary utils::swapWidthHeight(priWidth, priHeight); utils::Whf whf((uint32_t) priWidth, (uint32_t) priHeight, 0); tmpDim = getAspectRatio(whf); xPos = tmpDim.x; yPos = tmpDim.y; fbWidth = tmpDim.w; fbHeight = tmpDim.h; break; } default: ALOGE("%s: Unknown Orientation", __FUNCTION__); break; } // Calculate the position xRatio = inDim.x/priWidth; yRatio = inDim.y/priHeight; wRatio = inDim.w/priWidth; hRatio = inDim.h/priHeight; return utils::Dim((xRatio * fbWidth) + xPos, // x (yRatio * fbHeight) + yPos, // y (wRatio * fbWidth), // width (hRatio * fbHeight), // height inDim.o); // orientation } void Ctrl::dump() const { ALOGE("== Dump Ctrl start =="); mInfo.dump("mInfo"); mMdp.dump(); ALOGE("== Dump Ctrl end =="); } } // overlay