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author | Nadia Holmquist Pedersen <nadia@nhp.sh> | 2020-06-03 13:54:28 +0200 |
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committer | Nadia Holmquist Pedersen <nadia@nhp.sh> | 2020-06-03 13:54:28 +0200 |
commit | f9f366e296a68be0aa2eb7bfd0552da31896a18c (patch) | |
tree | f52760d5505b84074a9c1b50b4fe16e40035ba06 /src/frontend/Util_Video.cpp | |
parent | b746c0b7279d1f5b4bcfd02c115b09d583e9df4f (diff) | |
parent | d6332f96f162849ad0dde2738cacd3fae6e76e5d (diff) |
Merge remote-tracking branch 'remotes/upstream/master' into feature/qt-platform
# Conflicts:
# src/frontend/qt_sdl/CMakeLists.txt
# src/frontend/qt_sdl/Platform.cpp
# src/frontend/qt_sdl/main.cpp
Diffstat (limited to 'src/frontend/Util_Video.cpp')
-rw-r--r-- | src/frontend/Util_Video.cpp | 334 |
1 files changed, 334 insertions, 0 deletions
diff --git a/src/frontend/Util_Video.cpp b/src/frontend/Util_Video.cpp new file mode 100644 index 0000000..87cb9b5 --- /dev/null +++ b/src/frontend/Util_Video.cpp @@ -0,0 +1,334 @@ +/* + Copyright 2016-2020 Arisotura + + This file is part of melonDS. + + melonDS is free software: you can redistribute it and/or modify it under + the terms of the GNU General Public License as published by the Free + Software Foundation, either version 3 of the License, or (at your option) + any later version. + + melonDS is distributed in the hope that it will be useful, but WITHOUT ANY + WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS + FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. + + You should have received a copy of the GNU General Public License along + with melonDS. If not, see http://www.gnu.org/licenses/. +*/ + +#include <stdio.h> +#include <stdlib.h> +#include <string.h> +#include <cmath> +#include <algorithm> + +#include "FrontendUtil.h" + + +namespace Frontend +{ + +float TopScreenMtx[6]; +float BotScreenMtx[6]; +float TouchMtx[6]; + + +void M23_Identity(float* m) +{ + m[0] = 1; m[1] = 0; + m[2] = 0; m[3] = 1; + m[4] = 0; m[5] = 0; +} + +void M23_Scale(float* m, float s) +{ + m[0] *= s; m[1] *= s; + m[2] *= s; m[3] *= s; + m[4] *= s; m[5] *= s; +} + +void M23_RotateFast(float* m, int angle) +{ + if (angle == 0) return; + + float temp[4]; memcpy(temp, m, sizeof(float)*4); + + switch (angle) + { + case 1: // 90 + m[0] = temp[2]; + m[1] = temp[3]; + m[2] = -temp[0]; + m[3] = -temp[1]; + break; + + case 2: // 180 + m[0] = -temp[0]; + m[1] = -temp[1]; + m[2] = -temp[2]; + m[3] = -temp[3]; + break; + + case 3: // 270 + m[0] = -temp[2]; + m[1] = -temp[3]; + m[2] = temp[0]; + m[3] = temp[1]; + break; + } +} + +void M23_Translate(float* m, float tx, float ty) +{ + m[4] += tx; + m[5] += ty; +} + +void M23_Multiply(float* m, float* _a, float* _b) +{ + float a[6]; memcpy(a, _a, 6*sizeof(float)); + float b[6]; memcpy(b, _b, 6*sizeof(float)); + + m[0] = (a[0] * b[0]) + (a[2] * b[1]); + m[1] = (a[1] * b[0]) + (a[3] * b[1]); + + m[2] = (a[0] * b[2]) + (a[2] * b[3]); + m[3] = (a[1] * b[2]) + (a[3] * b[3]); + + m[4] = (a[0] * b[4]) + (a[2] * b[5]) + a[4]; + m[5] = (a[1] * b[4]) + (a[3] * b[5]) + a[5]; +} + +void M23_Transform(float* m, float& x, float& y) +{ + float vx = x; + float vy = y; + + x = (vx * m[0]) + (vy * m[2]) + m[4]; + y = (vx * m[1]) + (vy * m[3]) + m[5]; +} + + +void SetupScreenLayout(int screenWidth, int screenHeight, int screenLayout, int rotation, int sizing, int screenGap, bool integerScale) +{ + float refpoints[4][2] = + { + {0, 0}, {256, 192}, + {0, 0}, {256, 192} + }; + + int layout = screenLayout == 0 + ? ((rotation % 2 == 0) ? 0 : 1) + : screenLayout - 1; + + float botScale = 1; + float botTrans[4] = {0}; + + M23_Identity(TopScreenMtx); + M23_Identity(BotScreenMtx); + + M23_Translate(TopScreenMtx, -256/2, -192/2); + M23_Translate(BotScreenMtx, -256/2, -192/2); + + // rotation + { + float rotmtx[6]; + M23_Identity(rotmtx); + + M23_RotateFast(rotmtx, rotation); + M23_Multiply(TopScreenMtx, rotmtx, TopScreenMtx); + M23_Multiply(BotScreenMtx, rotmtx, BotScreenMtx); + + M23_Transform(TopScreenMtx, refpoints[0][0], refpoints[0][1]); + M23_Transform(TopScreenMtx, refpoints[1][0], refpoints[1][1]); + M23_Transform(BotScreenMtx, refpoints[2][0], refpoints[2][1]); + M23_Transform(BotScreenMtx, refpoints[3][0], refpoints[3][1]); + } + + // move screens apart + { + int idx = layout == 0 ? 1 : 0; + float offset = + (((layout == 0 && (rotation % 2 == 0)) || (layout == 1 && (rotation % 2 == 1)) + ? 192.f : 256.f) + + screenGap) / 2.f; + if (rotation == 1 || rotation == 2) + offset *= -1.f; + + M23_Translate(TopScreenMtx, (idx==0)?-offset:0, (idx==1)?-offset:0); + M23_Translate(BotScreenMtx, (idx==0)?offset:0, (idx==1)?offset:0); + + refpoints[0][idx] -= offset; + refpoints[1][idx] -= offset; + refpoints[2][idx] += offset; + refpoints[3][idx] += offset; + + botTrans[idx] = offset; + } + + // scale + { + if (sizing == 0) + { + float minX = refpoints[0][0], maxX = minX; + float minY = refpoints[0][1], maxY = minY; + + for (int i = 1; i < 4; i++) + { + minX = std::min(minX, refpoints[i][0]); + minY = std::min(minY, refpoints[i][1]); + maxX = std::max(maxX, refpoints[i][0]); + maxY = std::max(maxY, refpoints[i][1]); + } + + float hSize = maxX - minX; + float vSize = maxY - minY; + + // scale evenly + float scale = std::min(screenWidth / hSize, screenHeight / vSize); + + if (integerScale) + scale = floor(scale); + + M23_Scale(TopScreenMtx, scale); + M23_Scale(BotScreenMtx, scale); + + for (int i = 0; i < 4; i++) + { + refpoints[i][0] *= scale; + refpoints[i][1] *= scale; + } + + botScale = scale; + } + else + { + int primOffset = (sizing == 1) ? 0 : 2; + int secOffset = (sizing == 1) ? 2 : 0; + float* primMtx = (sizing == 1) ? TopScreenMtx : BotScreenMtx; + float* secMtx = (sizing == 1) ? BotScreenMtx : TopScreenMtx; + + float primMinX = refpoints[primOffset][0], primMaxX = primMinX; + float primMinY = refpoints[primOffset][1], primMaxY = primMinY; + float secMinX = refpoints[secOffset][0], secMaxX = secMinX; + float secMinY = refpoints[secOffset][1], secMaxY = secMinY; + + primMinX = std::min(primMinX, refpoints[primOffset+1][0]); + primMinY = std::min(primMinY, refpoints[primOffset+1][1]); + primMaxX = std::max(primMaxX, refpoints[primOffset+1][0]); + primMaxY = std::max(primMaxY, refpoints[primOffset+1][1]); + + secMinX = std::min(secMinX, refpoints[secOffset+1][0]); + secMinY = std::min(secMinY, refpoints[secOffset+1][1]); + secMaxX = std::max(secMaxX, refpoints[secOffset+1][0]); + secMaxY = std::max(secMaxY, refpoints[secOffset+1][1]); + + float primHSize = layout == 1 ? std::max(primMaxX, -primMinX) : primMaxX - primMinX; + float primVSize = layout == 0 ? std::max(primMaxY, -primMinY) : primMaxY - primMinY; + + float secHSize = layout == 1 ? std::max(secMaxX, -secMinX) : secMaxX - secMinX; + float secVSize = layout == 0 ? std::max(secMaxY, -secMinY) : secMaxY - secMinY; + + float primScale = std::min(screenWidth / primHSize, screenHeight / primVSize); + float secScale = 1.f; + + if (layout == 0) + { + if (screenHeight - primVSize * primScale < secVSize) + primScale = std::min(screenWidth / primHSize, (screenHeight - secVSize) / primVSize); + else + secScale = std::min((screenHeight - primVSize * primScale) / secVSize, screenWidth / secHSize); + } + else + { + if (screenWidth - primHSize * primScale < secHSize) + primScale = std::min((screenWidth - secHSize) / primHSize, screenHeight / primVSize); + else + secScale = std::min((screenWidth - primHSize * primScale) / secHSize, screenHeight / secVSize); + } + + if (integerScale) + { + primScale = floor(primScale); + secScale = floor(secScale); + } + + M23_Scale(primMtx, primScale); + M23_Scale(secMtx, secScale); + + refpoints[primOffset+0][0] *= primScale; + refpoints[primOffset+0][1] *= primScale; + refpoints[primOffset+1][0] *= primScale; + refpoints[primOffset+1][1] *= primScale; + refpoints[secOffset+0][0] *= secScale; + refpoints[secOffset+0][1] *= secScale; + refpoints[secOffset+1][0] *= secScale; + refpoints[secOffset+1][1] *= secScale; + + botScale = (sizing == 1) ? secScale : primScale; + } + } + + // position + { + float minX = refpoints[0][0], maxX = minX; + float minY = refpoints[0][1], maxY = minY; + + for (int i = 1; i < 4; i++) + { + minX = std::min(minX, refpoints[i][0]); + minY = std::min(minY, refpoints[i][1]); + maxX = std::max(maxX, refpoints[i][0]); + maxY = std::max(maxY, refpoints[i][1]); + } + + float width = maxX - minX; + float height = maxY - minY; + + float tx = (screenWidth/2) - (width/2) - minX; + float ty = (screenHeight/2) - (height/2) - minY; + + M23_Translate(TopScreenMtx, tx, ty); + M23_Translate(BotScreenMtx, tx, ty); + + botTrans[2] = tx; botTrans[3] = ty; + } + + // prepare a 'reverse' matrix for the touchscreen + // this matrix undoes the transforms applied to the bottom screen + // and can be used to calculate touchscreen coords from host screen coords + { + M23_Identity(TouchMtx); + + M23_Translate(TouchMtx, -botTrans[2], -botTrans[3]); + M23_Scale(TouchMtx, 1.f / botScale); + M23_Translate(TouchMtx, -botTrans[0], -botTrans[1]); + + float rotmtx[6]; + M23_Identity(rotmtx); + M23_RotateFast(rotmtx, (4-rotation) & 3); + M23_Multiply(TouchMtx, rotmtx, TouchMtx); + + M23_Translate(TouchMtx, 256/2, 192/2); + } +} + +void GetScreenTransforms(float* top, float* bot) +{ + memcpy(top, TopScreenMtx, 6*sizeof(float)); + memcpy(bot, BotScreenMtx, 6*sizeof(float)); +} + +void GetTouchCoords(int& x, int& y) +{ + float vx = x; + float vy = y; + + M23_Transform(TouchMtx, vx, vy); + + x = (int)vx; + y = (int)vy; +} + +} + |