protected IFilter createFilter(INyARRaster i_in, INyARRaster i_out) { if (i_in.getBufferType() == NyARBufferType.INT1D_GRAY_8) { switch (i_out.getBufferType()) { case NyARBufferType.BYTE1D_B8G8R8_24: return new Rgb2HsvFilter_BYTE1D_B8G8R8_24(); default: break; } } throw new NyARException(); }
protected IFilter createFilter(INyARRaster i_in, INyARRaster i_out) { if (i_in.getBufferType() == NyARBufferType.INT1D_GRAY_8) { switch (i_out.getBufferType()) { case NyARBufferType.BYTE1D_B8G8R8_24: return(new Rgb2HsvFilter_BYTE1D_B8G8R8_24()); default: break; } } throw new NyARException(); }
protected override bool onePixel(int pk_l, int pk_t, double[] cpara, INyARRaster o_out) { BitmapData in_bmp = this._ref_raster.lockBitmap(); int in_w = this._ref_raster.getWidth(); int in_h = this._ref_raster.getHeight(); //ピクセルリーダーを取得 double cp0 = cpara[0]; double cp3 = cpara[3]; double cp6 = cpara[6]; double cp1 = cpara[1]; double cp4 = cpara[4]; double cp7 = cpara[7]; int out_w = o_out.getWidth(); int out_h = o_out.getHeight(); double cp7_cy_1 = cp7 * pk_t + 1.0 + cp6 * pk_l; double cp1_cy_cp2 = cp1 * pk_t + cpara[2] + cp0 * pk_l; double cp4_cy_cp5 = cp4 * pk_t + cpara[5] + cp3 * pk_l; int r, g, b, p; switch (o_out.getBufferType()) { case NyARBufferType.INT1D_X8R8G8B8_32: int[] pat_data = (int[])o_out.getBuffer(); p = 0; for (int iy = 0; iy < out_h; iy++) { //解像度分の点を取る。 double cp7_cy_1_cp6_cx = cp7_cy_1; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5; for (int ix = 0; ix < out_w; ix++) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } // pat_data[p] = Marshal.ReadInt32(in_bmp.Scan0, (x * 4 + y * in_bmp.Stride)); //r = (px >> 16) & 0xff;// R //g = (px >> 8) & 0xff; // G //b = (px) & 0xff; // B cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; //pat_data[p] = (r << 16) | (g << 8) | ((b & 0xff)); //pat_data[p] = px; p++; } cp7_cy_1 += cp7; cp1_cy_cp2 += cp1; cp4_cy_cp5 += cp4; } this._ref_raster.unlockBitmap(); return true; default: if (o_out is NyARBitmapRaster) { NyARBitmapRaster bmr = (NyARBitmapRaster)o_out; BitmapData bm = bmr.lockBitmap(); p = 0; for (int iy = 0; iy < out_h; iy++) { //解像度分の点を取る。 double cp7_cy_1_cp6_cx = cp7_cy_1; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5; for (int ix = 0; ix < out_w; ix++) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } int pix = Marshal.ReadInt32(in_bmp.Scan0, (x * 4 + y * in_bmp.Stride)); Marshal.WriteInt32(bm.Scan0, ix * 4 + iy * bm.Stride, pix); cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; p++; } cp7_cy_1 += cp7; cp1_cy_cp2 += cp1; cp4_cy_cp5 += cp4; } bmr.unlockBitmap(); this._ref_raster.unlockBitmap(); return true; } else if (o_out is INyARRgbRaster) { //ANY to RGBx INyARRgbPixelDriver out_reader = ((INyARRgbRaster)o_out).getRgbPixelDriver(); for (int iy = 0; iy < out_h; iy++) { //解像度分の点を取る。 double cp7_cy_1_cp6_cx = cp7_cy_1; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5; for (int ix = 0; ix < out_w; ix++) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } int px = Marshal.ReadInt32(in_bmp.Scan0, (x*4 + y * in_bmp.Stride)); r = (px >> 16) & 0xff;// R g = (px >> 8) & 0xff; // G b = (px) & 0xff; // B cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; out_reader.setPixel(ix, iy, r, g, b); } cp7_cy_1 += cp7; cp1_cy_cp2 += cp1; cp4_cy_cp5 += cp4; } this._ref_raster.unlockBitmap(); return true; } break; } this._ref_raster.unlockBitmap(); return false; }
protected override bool onePixel(int pk_l, int pk_t, double[] cpara, INyARRaster o_out) { Color32[] in_pixs = (Color32[])this._ref_raster.getBuffer(); int in_w = this._ref_raster.getWidth(); int in_h = this._ref_raster.getHeight(); //ピクセルリーダーを取得 double cp0 = cpara[0]; double cp3 = cpara[3]; double cp6 = cpara[6]; double cp1 = cpara[1]; double cp4 = cpara[4]; double cp7 = cpara[7]; int out_w = o_out.getWidth(); int out_h = o_out.getHeight(); double cp7_cy_1 = cp7 * pk_t + 1.0 + cp6 * pk_l; double cp1_cy_cp2 = cp1 * pk_t + cpara[2] + cp0 * pk_l; double cp4_cy_cp5 = cp4 * pk_t + cpara[5] + cp3 * pk_l; int p; int step,offset; //flip Virtical switch (o_out.getBufferType()) { case NyARBufferType.INT1D_X8R8G8B8_32: int[] pat_data = (int[])o_out.getBuffer(); p = 0; if(this._is_inv_v){ offset=in_w*(in_h-1); step=-in_w; }else{ offset=0; step=in_w; } for (int iy = 0; iy < out_h; iy++) { //解像度分の点を取る。 double cp7_cy_1_cp6_cx = cp7_cy_1; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5; for (int ix = 0; ix < out_w; ix++) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } Color32 pix=in_pixs[x + offset+step*y]; // pat_data[p] = ((pix.r << 16) & 0xff)|((pix.g << 8) & 0xff)| pix.b; cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; p++; } cp7_cy_1 += cp7; cp1_cy_cp2 += cp1; cp4_cy_cp5 += cp4; } return true; case NyARBufferType.OBJECT_CS_Unity: Color32[] out_buf = (Color32[])(((INyARRgbRaster)o_out).getBuffer()); if(this._is_inv_v==((NyARUnityRaster)o_out).isFlipVirtical()){ offset=in_w*(in_h-1); step=-in_w; }else{ offset=0; step=in_w; } for (int iy = 0; iy < out_h; iy++) { //解像度分の点を取る。 double cp7_cy_1_cp6_cx = cp7_cy_1; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5; int ys=out_h-1-iy; for (int ix = 0; ix < out_w; ix++) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } out_buf[ix+ys*out_w]=in_pixs[x + offset+step*y]; // cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; } cp7_cy_1 += cp7; cp1_cy_cp2 += cp1; cp4_cy_cp5 += cp4; } return true; default: //ANY to RGBx if (o_out is INyARRgbRaster) { INyARRgbPixelDriver out_reader = ((INyARRgbRaster)o_out).getRgbPixelDriver(); if(this._is_inv_v){ offset=in_w*(in_h-1); step=-in_w; }else{ offset=0; step=in_w; } for (int iy = 0; iy < out_h; iy++) { //解像度分の点を取る。 double cp7_cy_1_cp6_cx = cp7_cy_1; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5; for (int ix = 0; ix < out_w; ix++) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } Color32 px = in_pixs[x + offset+step*y]; cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; out_reader.setPixel(ix, iy,px.r,px.g,px.b); } cp7_cy_1 += cp7; cp1_cy_cp2 += cp1; cp4_cy_cp5 += cp4; } return true; } break; } return false; }
protected override bool onePixel(int pk_l, int pk_t, double[] cpara, INyARRaster o_out) { BitmapData in_bmp = this._ref_raster.lockBitmap(); int in_w = this._ref_raster.getWidth(); int in_h = this._ref_raster.getHeight(); //ピクセルリーダーを取得 double cp0 = cpara[0]; double cp3 = cpara[3]; double cp6 = cpara[6]; double cp1 = cpara[1]; double cp4 = cpara[4]; double cp7 = cpara[7]; int out_w = o_out.getWidth(); int out_h = o_out.getHeight(); double cp7_cy_1 = cp7 * pk_t + 1.0 + cp6 * pk_l; double cp1_cy_cp2 = cp1 * pk_t + cpara[2] + cp0 * pk_l; double cp4_cy_cp5 = cp4 * pk_t + cpara[5] + cp3 * pk_l; int r, g, b, p; switch (o_out.getBufferType()) { case NyARBufferType.INT1D_X8R8G8B8_32: int[] pat_data = (int[])o_out.getBuffer(); p = 0; for (int iy = 0; iy < out_h; iy++) { //解像度分の点を取る。 double cp7_cy_1_cp6_cx = cp7_cy_1; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5; for (int ix = 0; ix < out_w; ix++) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } // pat_data[p] = Marshal.ReadInt32(in_bmp.Scan0, (x * 4 + y * in_bmp.Stride)); //r = (px >> 16) & 0xff;// R //g = (px >> 8) & 0xff; // G //b = (px) & 0xff; // B cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; //pat_data[p] = (r << 16) | (g << 8) | ((b & 0xff)); //pat_data[p] = px; p++; } cp7_cy_1 += cp7; cp1_cy_cp2 += cp1; cp4_cy_cp5 += cp4; } this._ref_raster.unlockBitmap(); return(true); default: if (o_out is NyARBitmapRaster) { NyARBitmapRaster bmr = (NyARBitmapRaster)o_out; BitmapData bm = bmr.lockBitmap(); p = 0; for (int iy = 0; iy < out_h; iy++) { //解像度分の点を取る。 double cp7_cy_1_cp6_cx = cp7_cy_1; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5; for (int ix = 0; ix < out_w; ix++) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } int pix = Marshal.ReadInt32(in_bmp.Scan0, (x * 4 + y * in_bmp.Stride)); Marshal.WriteInt32(bm.Scan0, ix * 4 + iy * bm.Stride, pix); cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; p++; } cp7_cy_1 += cp7; cp1_cy_cp2 += cp1; cp4_cy_cp5 += cp4; } bmr.unlockBitmap(); this._ref_raster.unlockBitmap(); return(true); } else if (o_out is INyARRgbRaster) { //ANY to RGBx INyARRgbRaster out_raster = ((INyARRgbRaster)o_out); for (int iy = 0; iy < out_h; iy++) { //解像度分の点を取る。 double cp7_cy_1_cp6_cx = cp7_cy_1; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5; for (int ix = 0; ix < out_w; ix++) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } int px = Marshal.ReadInt32(in_bmp.Scan0, (x * 4 + y * in_bmp.Stride)); r = (px >> 16) & 0xff; // R g = (px >> 8) & 0xff; // G b = (px) & 0xff; // B cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; out_raster.setPixel(ix, iy, r, g, b); } cp7_cy_1 += cp7; cp1_cy_cp2 += cp1; cp4_cy_cp5 += cp4; } this._ref_raster.unlockBitmap(); return(true); } break; } this._ref_raster.unlockBitmap(); return(false); }
protected override bool onePixel(int pk_l, int pk_t, double[] cpara, INyARRaster o_out) { Color32[] in_pixs = (Color32[])this._ref_raster.getBuffer(); int in_w = this._ref_raster.getWidth(); int in_h = this._ref_raster.getHeight(); //ピクセルリーダーを取得 double cp0 = cpara[0]; double cp3 = cpara[3]; double cp6 = cpara[6]; double cp1 = cpara[1]; double cp4 = cpara[4]; double cp7 = cpara[7]; int out_w = o_out.getWidth(); int out_h = o_out.getHeight(); double cp7_cy_1 = cp7 * pk_t + 1.0 + cp6 * pk_l; double cp1_cy_cp2 = cp1 * pk_t + cpara[2] + cp0 * pk_l; double cp4_cy_cp5 = cp4 * pk_t + cpara[5] + cp3 * pk_l; int p; int step, offset; //flip Virtical switch (o_out.getBufferType()) { case NyARBufferType.INT1D_X8R8G8B8_32: int[] pat_data = (int[])o_out.getBuffer(); p = 0; if (this._is_inv_v) { offset = in_w * (in_h - 1); step = -in_w; } else { offset = 0; step = in_w; } for (int iy = 0; iy < out_h; iy++) { //解像度分の点を取る。 double cp7_cy_1_cp6_cx = cp7_cy_1; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5; for (int ix = 0; ix < out_w; ix++) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } Color32 pix = in_pixs[x + offset + step * y]; // pat_data[p] = ((pix.r << 16) & 0xff) | ((pix.g << 8) & 0xff) | pix.b; cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; p++; } cp7_cy_1 += cp7; cp1_cy_cp2 += cp1; cp4_cy_cp5 += cp4; } return(true); case NyARBufferType.OBJECT_CS_Unity: Color32[] out_buf = (Color32[])(((INyARRgbRaster)o_out).getBuffer()); if (this._is_inv_v == ((NyARUnityRaster)o_out).isFlipVirtical()) { offset = in_w * (in_h - 1); step = -in_w; } else { offset = 0; step = in_w; } for (int iy = 0; iy < out_h; iy++) { //解像度分の点を取る。 double cp7_cy_1_cp6_cx = cp7_cy_1; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5; int ys = out_h - 1 - iy; for (int ix = 0; ix < out_w; ix++) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } out_buf[ix + ys * out_w] = in_pixs[x + offset + step * y]; // cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; } cp7_cy_1 += cp7; cp1_cy_cp2 += cp1; cp4_cy_cp5 += cp4; } return(true); default: //ANY to RGBx if (o_out is INyARRgbRaster) { INyARRgbRaster out_raster = ((INyARRgbRaster)o_out); if (this._is_inv_v) { offset = in_w * (in_h - 1); step = -in_w; } else { offset = 0; step = in_w; } for (int iy = 0; iy < out_h; iy++) { //解像度分の点を取る。 double cp7_cy_1_cp6_cx = cp7_cy_1; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5; for (int ix = 0; ix < out_w; ix++) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } Color32 px = in_pixs[x + offset + step * y]; cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; out_raster.setPixel(ix, iy, px.r, px.g, px.b); } cp7_cy_1 += cp7; cp1_cy_cp2 += cp1; cp4_cy_cp5 += cp4; } return(true); } break; } return(false); }
public NyARVectorReader_INT1D_GRAY_8(INyARRaster i_ref_raster) { Debug.Assert(i_ref_raster.getBufferType() == NyARBufferType.INT1D_GRAY_8); this._ref_buf = (int[])(i_ref_raster.getBuffer()); this._ref_size = i_ref_raster.getSize(); }
protected override bool onePixel(int pk_l, int pk_t, double[] cpara, INyARRaster o_out) { int in_w = this._ref_raster.getWidth(); int in_h = this._ref_raster.getHeight(); byte[] i_in_buf = (byte[])this._ref_raster.getBuffer(); //ピクセルリーダーを取得 double cp0 = cpara[0]; double cp3 = cpara[3]; double cp6 = cpara[6]; double cp1 = cpara[1]; double cp4 = cpara[4]; double cp7 = cpara[7]; int out_w = o_out.getWidth(); int out_h = o_out.getHeight(); double cp7_cy_1 = cp7 * pk_t + 1.0 + cp6 * pk_l; double cp1_cy_cp2 = cp1 * pk_t + cpara[2] + cp0 * pk_l; double cp4_cy_cp5 = cp4 * pk_t + cpara[5] + cp3 * pk_l; int r, g, b, p; switch (o_out.getBufferType()) { case NyARBufferType.INT1D_X8R8G8B8_32: int[] pat_data = (int[])o_out.getBuffer(); p = 0; for (int iy = 0; iy < out_h; iy++) { //解像度分の点を取る。 double cp7_cy_1_cp6_cx = cp7_cy_1; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5; for (int ix = 0; ix < out_w; ix++) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } int bp = (x + y * in_w) * 4; r = (i_in_buf[bp + 2] & 0xff); g = (i_in_buf[bp + 1] & 0xff); b = (i_in_buf[bp + 0] & 0xff); cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; pat_data[p] = (r << 16) | (g << 8) | ((b & 0xff)); p++; } cp7_cy_1 += cp7; cp1_cy_cp2 += cp1; cp4_cy_cp5 += cp4; } return true; default: //ANY to RGBx if (o_out is INyARRgbRaster) { INyARRgbPixelDriver out_reader = ((INyARRgbRaster)o_out).getRgbPixelDriver(); for (int iy = 0; iy < out_h; iy++) { //解像度分の点を取る。 double cp7_cy_1_cp6_cx = cp7_cy_1; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5; for (int ix = 0; ix < out_w; ix++) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } int bp = (x + y * in_w) * 4; r = (i_in_buf[bp + 2] & 0xff); g = (i_in_buf[bp + 1] & 0xff); b = (i_in_buf[bp + 0] & 0xff); cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; out_reader.setPixel(ix, iy, r, g, b); } cp7_cy_1 += cp7; cp1_cy_cp2 += cp1; cp4_cy_cp5 += cp4; } return true; } break; } return false; }
protected override bool multiPixel(int pk_l, int pk_t, double[] cpara, int i_resolution, INyARRaster o_out) { int res_pix = i_resolution * i_resolution; int[] rgb_tmp = this.__pickFromRaster_rgb_tmp; int in_w = this._ref_raster.getWidth(); int in_h = this._ref_raster.getHeight(); INyARRgbPixelDriver i_in_reader = this._ref_raster.getRgbPixelDriver(); //ピクセルリーダーを取得 double cp0 = cpara[0]; double cp3 = cpara[3]; double cp6 = cpara[6]; double cp1 = cpara[1]; double cp4 = cpara[4]; double cp7 = cpara[7]; double cp2 = cpara[2]; double cp5 = cpara[5]; int out_w = o_out.getWidth(); int out_h = o_out.getHeight(); switch (o_out.getBufferType()) { case NyARBufferType.INT1D_X8R8G8B8_32: int[] pat_data = (int[])o_out.getBuffer(); int p = (out_w * out_h - 1); for (int iy = out_h - 1; iy >= 0; iy--) { //解像度分の点を取る。 for (int ix = out_w - 1; ix >= 0; ix--) { int r, g, b; r = g = b = 0; int cy = pk_t + iy * i_resolution; int cx = pk_l + ix * i_resolution; double cp7_cy_1_cp6_cx_b = cp7 * cy + 1.0 + cp6 * cx; double cp1_cy_cp2_cp0_cx_b = cp1 * cy + cp2 + cp0 * cx; double cp4_cy_cp5_cp3_cx_b = cp4 * cy + cp5 + cp3 * cx; for (int i2y = i_resolution - 1; i2y >= 0; i2y--) { double cp7_cy_1_cp6_cx = cp7_cy_1_cp6_cx_b; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2_cp0_cx_b; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5_cp3_cx_b; for (int i2x = i_resolution - 1; i2x >= 0; i2x--) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } i_in_reader.getPixel(x, y, rgb_tmp); r += rgb_tmp[0]; g += rgb_tmp[1]; b += rgb_tmp[2]; cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; } cp7_cy_1_cp6_cx_b += cp7; cp1_cy_cp2_cp0_cx_b += cp1; cp4_cy_cp5_cp3_cx_b += cp4; } r /= res_pix; g /= res_pix; b /= res_pix; pat_data[p] = ((r & 0xff) << 16) | ((g & 0xff) << 8) | ((b & 0xff)); p--; } } return true; default: //ANY to RGBx if (o_out is INyARRgbRaster) { INyARRgbPixelDriver out_reader = ((INyARRgbRaster)o_out).getRgbPixelDriver(); for (int iy = out_h - 1; iy >= 0; iy--) { //解像度分の点を取る。 for (int ix = out_w - 1; ix >= 0; ix--) { int r, g, b; r = g = b = 0; int cy = pk_t + iy * i_resolution; int cx = pk_l + ix * i_resolution; double cp7_cy_1_cp6_cx_b = cp7 * cy + 1.0 + cp6 * cx; double cp1_cy_cp2_cp0_cx_b = cp1 * cy + cp2 + cp0 * cx; double cp4_cy_cp5_cp3_cx_b = cp4 * cy + cp5 + cp3 * cx; for (int i2y = i_resolution - 1; i2y >= 0; i2y--) { double cp7_cy_1_cp6_cx = cp7_cy_1_cp6_cx_b; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2_cp0_cx_b; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5_cp3_cx_b; for (int i2x = i_resolution - 1; i2x >= 0; i2x--) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } i_in_reader.getPixel(x, y, rgb_tmp); r += rgb_tmp[0]; g += rgb_tmp[1]; b += rgb_tmp[2]; cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; } cp7_cy_1_cp6_cx_b += cp7; cp1_cy_cp2_cp0_cx_b += cp1; cp4_cy_cp5_cp3_cx_b += cp4; } out_reader.setPixel(ix, iy, r / res_pix, g / res_pix, b / res_pix); } } return true; } break; } return false; }
protected override bool onePixel(int pk_l, int pk_t, double[] cpara, INyARRaster o_out) { int[] rgb_tmp = this.__pickFromRaster_rgb_tmp; int in_w = this._ref_raster.getWidth(); int in_h = this._ref_raster.getHeight(); //ピクセルリーダーを取得 double cp0 = cpara[0]; double cp3 = cpara[3]; double cp6 = cpara[6]; double cp1 = cpara[1]; double cp4 = cpara[4]; double cp7 = cpara[7]; int out_w = o_out.getWidth(); int out_h = o_out.getHeight(); double cp7_cy_1 = cp7 * pk_t + 1.0 + cp6 * pk_l; double cp1_cy_cp2 = cp1 * pk_t + cpara[2] + cp0 * pk_l; double cp4_cy_cp5 = cp4 * pk_t + cpara[5] + cp3 * pk_l; INyARRgbPixelDriver i_in_reader = this._ref_raster.getRgbPixelDriver(); switch (o_out.getBufferType()) { case NyARBufferType.INT1D_X8R8G8B8_32: int[] pat_data = (int[])o_out.getBuffer(); int p = 0; for (int iy = out_h - 1; iy >= 0; iy--) { //解像度分の点を取る。 double cp7_cy_1_cp6_cx = cp7_cy_1; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5; for (int ix = out_w - 1; ix >= 0; ix--) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } i_in_reader.getPixel(x, y, rgb_tmp); cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; pat_data[p] = (rgb_tmp[0] << 16) | (rgb_tmp[1] << 8) | ((rgb_tmp[2] & 0xff)); p++; } cp7_cy_1 += cp7; cp1_cy_cp2 += cp1; cp4_cy_cp5 += cp4; } return(true); default: //ANY to RGBx if (o_out is INyARRgbRaster) { INyARRgbPixelDriver out_reader = ((INyARRgbRaster)o_out).getRgbPixelDriver(); for (int iy = 0; iy < out_h; iy++) { //解像度分の点を取る。 double cp7_cy_1_cp6_cx = cp7_cy_1; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5; for (int ix = 0; ix < out_w; ix++) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } i_in_reader.getPixel(x, y, rgb_tmp); cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; out_reader.setPixel(ix, iy, rgb_tmp); } cp7_cy_1 += cp7; cp1_cy_cp2 += cp1; cp4_cy_cp5 += cp4; } return(true); } break; } return(false); }
protected override bool multiPixel(int pk_l, int pk_t, double[] cpara, int i_resolution, INyARRaster o_out) { int res_pix = i_resolution * i_resolution; int[] rgb_tmp = this.__pickFromRaster_rgb_tmp; int in_w = this._ref_raster.getWidth(); int in_h = this._ref_raster.getHeight(); INyARRgbPixelDriver i_in_reader = this._ref_raster.getRgbPixelDriver(); //ピクセルリーダーを取得 double cp0 = cpara[0]; double cp3 = cpara[3]; double cp6 = cpara[6]; double cp1 = cpara[1]; double cp4 = cpara[4]; double cp7 = cpara[7]; double cp2 = cpara[2]; double cp5 = cpara[5]; int out_w = o_out.getWidth(); int out_h = o_out.getHeight(); switch (o_out.getBufferType()) { case NyARBufferType.INT1D_X8R8G8B8_32: int[] pat_data = (int[])o_out.getBuffer(); int p = (out_w * out_h - 1); for (int iy = out_h - 1; iy >= 0; iy--) { //解像度分の点を取る。 for (int ix = out_w - 1; ix >= 0; ix--) { int r, g, b; r = g = b = 0; int cy = pk_t + iy * i_resolution; int cx = pk_l + ix * i_resolution; double cp7_cy_1_cp6_cx_b = cp7 * cy + 1.0 + cp6 * cx; double cp1_cy_cp2_cp0_cx_b = cp1 * cy + cp2 + cp0 * cx; double cp4_cy_cp5_cp3_cx_b = cp4 * cy + cp5 + cp3 * cx; for (int i2y = i_resolution - 1; i2y >= 0; i2y--) { double cp7_cy_1_cp6_cx = cp7_cy_1_cp6_cx_b; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2_cp0_cx_b; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5_cp3_cx_b; for (int i2x = i_resolution - 1; i2x >= 0; i2x--) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } i_in_reader.getPixel(x, y, rgb_tmp); r += rgb_tmp[0]; g += rgb_tmp[1]; b += rgb_tmp[2]; cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; } cp7_cy_1_cp6_cx_b += cp7; cp1_cy_cp2_cp0_cx_b += cp1; cp4_cy_cp5_cp3_cx_b += cp4; } r /= res_pix; g /= res_pix; b /= res_pix; pat_data[p] = ((r & 0xff) << 16) | ((g & 0xff) << 8) | ((b & 0xff)); p--; } } return(true); default: //ANY to RGBx if (o_out is INyARRgbRaster) { INyARRgbPixelDriver out_reader = ((INyARRgbRaster)o_out).getRgbPixelDriver(); for (int iy = out_h - 1; iy >= 0; iy--) { //解像度分の点を取る。 for (int ix = out_w - 1; ix >= 0; ix--) { int r, g, b; r = g = b = 0; int cy = pk_t + iy * i_resolution; int cx = pk_l + ix * i_resolution; double cp7_cy_1_cp6_cx_b = cp7 * cy + 1.0 + cp6 * cx; double cp1_cy_cp2_cp0_cx_b = cp1 * cy + cp2 + cp0 * cx; double cp4_cy_cp5_cp3_cx_b = cp4 * cy + cp5 + cp3 * cx; for (int i2y = i_resolution - 1; i2y >= 0; i2y--) { double cp7_cy_1_cp6_cx = cp7_cy_1_cp6_cx_b; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2_cp0_cx_b; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5_cp3_cx_b; for (int i2x = i_resolution - 1; i2x >= 0; i2x--) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } i_in_reader.getPixel(x, y, rgb_tmp); r += rgb_tmp[0]; g += rgb_tmp[1]; b += rgb_tmp[2]; cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; } cp7_cy_1_cp6_cx_b += cp7; cp1_cy_cp2_cp0_cx_b += cp1; cp4_cy_cp5_cp3_cx_b += cp4; } out_reader.setPixel(ix, iy, r / res_pix, g / res_pix, b / res_pix); } } return(true); } break; } return(false); }
protected override bool onePixel(int pk_l, int pk_t, double[] cpara, INyARRaster o_out) { int in_w = this._ref_raster.getWidth(); int in_h = this._ref_raster.getHeight(); byte[] i_in_buf = (byte[])this._ref_raster.getBuffer(); //ピクセルリーダーを取得 double cp0 = cpara[0]; double cp3 = cpara[3]; double cp6 = cpara[6]; double cp1 = cpara[1]; double cp4 = cpara[4]; double cp7 = cpara[7]; int out_w = o_out.getWidth(); int out_h = o_out.getHeight(); double cp7_cy_1 = cp7 * pk_t + 1.0 + cp6 * pk_l; double cp1_cy_cp2 = cp1 * pk_t + cpara[2] + cp0 * pk_l; double cp4_cy_cp5 = cp4 * pk_t + cpara[5] + cp3 * pk_l; int r, g, b, p; switch (o_out.getBufferType()) { case NyARBufferType.INT1D_X8R8G8B8_32: int[] pat_data = (int[])o_out.getBuffer(); p = 0; for (int iy = 0; iy < out_h; iy++) { //解像度分の点を取る。 double cp7_cy_1_cp6_cx = cp7_cy_1; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5; for (int ix = 0; ix < out_w; ix++) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } int bp = (x + y * in_w) * 4; r = (i_in_buf[bp + 2] & 0xff); g = (i_in_buf[bp + 1] & 0xff); b = (i_in_buf[bp + 0] & 0xff); cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; pat_data[p] = (r << 16) | (g << 8) | ((b & 0xff)); p++; } cp7_cy_1 += cp7; cp1_cy_cp2 += cp1; cp4_cy_cp5 += cp4; } return(true); default: //ANY to RGBx if (o_out is INyARRgbRaster) { INyARRgbRaster out_reader = ((INyARRgbRaster)o_out); for (int iy = 0; iy < out_h; iy++) { //解像度分の点を取る。 double cp7_cy_1_cp6_cx = cp7_cy_1; double cp1_cy_cp2_cp0_cx = cp1_cy_cp2; double cp4_cy_cp5_cp3_cx = cp4_cy_cp5; for (int ix = 0; ix < out_w; ix++) { //1ピクセルを作成 double d = 1 / (cp7_cy_1_cp6_cx); int x = (int)((cp1_cy_cp2_cp0_cx) * d); int y = (int)((cp4_cy_cp5_cp3_cx) * d); if (x < 0) { x = 0; } else if (x >= in_w) { x = in_w - 1; } if (y < 0) { y = 0; } else if (y >= in_h) { y = in_h - 1; } int bp = (x + y * in_w) * 4; r = (i_in_buf[bp + 2] & 0xff); g = (i_in_buf[bp + 1] & 0xff); b = (i_in_buf[bp + 0] & 0xff); cp7_cy_1_cp6_cx += cp6; cp1_cy_cp2_cp0_cx += cp0; cp4_cy_cp5_cp3_cx += cp3; out_reader.setPixel(ix, iy, r, g, b); } cp7_cy_1 += cp7; cp1_cy_cp2 += cp1; cp4_cy_cp5 += cp4; } return(true); } break; } return(false); }