// Copyright 2014 PDFium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com #include #include "core/fxge/dib/dib_int.h" #include "core/include/fxge/fx_dib.h" #include "core/include/fxge/fx_ge.h" void CWeightTable::Calc(int dest_len, int dest_min, int dest_max, int src_len, int src_min, int src_max, int flags) { FX_Free(m_pWeightTables); m_pWeightTables = NULL; double scale, base; scale = (FX_FLOAT)src_len / (FX_FLOAT)dest_len; if (dest_len < 0) { base = (FX_FLOAT)(src_len); } else { base = 0; } int ext_size = flags & FXDIB_BICUBIC_INTERPOL ? 3 : 1; m_ItemSize = sizeof(int) * 2 + (int)(sizeof(int) * (FXSYS_ceil(FXSYS_fabs((FX_FLOAT)scale)) + ext_size)); m_DestMin = dest_min; if ((dest_max - dest_min) > (int)((1U << 30) - 4) / m_ItemSize) { return; } m_pWeightTables = FX_TryAlloc(uint8_t, (dest_max - dest_min) * m_ItemSize + 4); if (!m_pWeightTables) { return; } if ((flags & FXDIB_NOSMOOTH) != 0 || FXSYS_fabs((FX_FLOAT)scale) < 1.0f) { for (int dest_pixel = dest_min; dest_pixel < dest_max; dest_pixel++) { PixelWeight& pixel_weights = *GetPixelWeight(dest_pixel); double src_pos = dest_pixel * scale + scale / 2 + base; if (flags & FXDIB_INTERPOL) { pixel_weights.m_SrcStart = (int)FXSYS_floor((FX_FLOAT)src_pos - 1.0f / 2); pixel_weights.m_SrcEnd = (int)FXSYS_floor((FX_FLOAT)src_pos + 1.0f / 2); if (pixel_weights.m_SrcStart < src_min) { pixel_weights.m_SrcStart = src_min; } if (pixel_weights.m_SrcEnd >= src_max) { pixel_weights.m_SrcEnd = src_max - 1; } if (pixel_weights.m_SrcStart == pixel_weights.m_SrcEnd) { pixel_weights.m_Weights[0] = 65536; } else { pixel_weights.m_Weights[1] = FXSYS_round( (FX_FLOAT)(src_pos - pixel_weights.m_SrcStart - 1.0f / 2) * 65536); pixel_weights.m_Weights[0] = 65536 - pixel_weights.m_Weights[1]; } } else if (flags & FXDIB_BICUBIC_INTERPOL) { pixel_weights.m_SrcStart = (int)FXSYS_floor((FX_FLOAT)src_pos - 1.0f / 2); pixel_weights.m_SrcEnd = (int)FXSYS_floor((FX_FLOAT)src_pos + 1.0f / 2); int start = pixel_weights.m_SrcStart - 1; int end = pixel_weights.m_SrcEnd + 1; if (start < src_min) { start = src_min; } if (end >= src_max) { end = src_max - 1; } if (pixel_weights.m_SrcStart < src_min) { src_pos += src_min - pixel_weights.m_SrcStart; pixel_weights.m_SrcStart = src_min; } if (pixel_weights.m_SrcEnd >= src_max) { pixel_weights.m_SrcEnd = src_max - 1; } int weight; weight = FXSYS_round( (FX_FLOAT)(src_pos - pixel_weights.m_SrcStart - 1.0f / 2) * 256); if (start == end) { pixel_weights.m_Weights[0] = (SDP_Table[256 + weight] + SDP_Table[weight] + SDP_Table[256 - weight] + SDP_Table[512 - weight]) << 8; } else if ((start == pixel_weights.m_SrcStart && (pixel_weights.m_SrcStart == pixel_weights.m_SrcEnd || end == pixel_weights.m_SrcEnd) && start < end) || (start < pixel_weights.m_SrcStart && pixel_weights.m_SrcStart == pixel_weights.m_SrcEnd && end == pixel_weights.m_SrcEnd)) { if (start < pixel_weights.m_SrcStart) { pixel_weights.m_Weights[0] = SDP_Table[256 + weight] << 8; pixel_weights.m_Weights[1] = (SDP_Table[weight] + SDP_Table[256 - weight] + SDP_Table[512 - weight]) << 8; } else { if (pixel_weights.m_SrcStart == pixel_weights.m_SrcEnd) { pixel_weights.m_Weights[0] = (SDP_Table[256 + weight] + SDP_Table[weight] + SDP_Table[256 - weight]) << 8; pixel_weights.m_Weights[1] = SDP_Table[512 - weight] << 8; } else { pixel_weights.m_Weights[0] = (SDP_Table[256 + weight] + SDP_Table[weight]) << 8; pixel_weights.m_Weights[1] = (SDP_Table[256 - weight] + SDP_Table[512 - weight]) << 8; } } if (pixel_weights.m_SrcStart == pixel_weights.m_SrcEnd) { pixel_weights.m_SrcEnd = end; } if (start < pixel_weights.m_SrcStart) { pixel_weights.m_SrcStart = start; } } else if (start == pixel_weights.m_SrcStart && start < pixel_weights.m_SrcEnd && pixel_weights.m_SrcEnd < end) { pixel_weights.m_Weights[0] = (SDP_Table[256 + weight] + SDP_Table[weight]) << 8; pixel_weights.m_Weights[1] = SDP_Table[256 - weight] << 8; pixel_weights.m_Weights[2] = SDP_Table[512 - weight] << 8; pixel_weights.m_SrcEnd = end; } else if (start < pixel_weights.m_SrcStart && pixel_weights.m_SrcStart < pixel_weights.m_SrcEnd && pixel_weights.m_SrcEnd == end) { pixel_weights.m_Weights[0] = SDP_Table[256 + weight] << 8; pixel_weights.m_Weights[1] = SDP_Table[weight] << 8; pixel_weights.m_Weights[2] = (SDP_Table[256 - weight] + SDP_Table[512 - weight]) << 8; pixel_weights.m_SrcStart = start; } else { pixel_weights.m_Weights[0] = SDP_Table[256 + weight] << 8; pixel_weights.m_Weights[1] = SDP_Table[weight] << 8; pixel_weights.m_Weights[2] = SDP_Table[256 - weight] << 8; pixel_weights.m_Weights[3] = SDP_Table[512 - weight] << 8; pixel_weights.m_SrcStart = start; pixel_weights.m_SrcEnd = end; } } else { pixel_weights.m_SrcStart = pixel_weights.m_SrcEnd = (int)FXSYS_floor((FX_FLOAT)src_pos); if (pixel_weights.m_SrcStart < src_min) { pixel_weights.m_SrcStart = src_min; } if (pixel_weights.m_SrcEnd >= src_max) { pixel_weights.m_SrcEnd = src_max - 1; } pixel_weights.m_Weights[0] = 65536; } } return; } for (int dest_pixel = dest_min; dest_pixel < dest_max; dest_pixel++) { PixelWeight& pixel_weights = *GetPixelWeight(dest_pixel); double src_start = dest_pixel * scale + base; double src_end = src_start + scale; int start_i, end_i; if (src_start < src_end) { start_i = (int)FXSYS_floor((FX_FLOAT)src_start); end_i = (int)FXSYS_ceil((FX_FLOAT)src_end); } else { start_i = (int)FXSYS_floor((FX_FLOAT)src_end); end_i = (int)FXSYS_ceil((FX_FLOAT)src_start); } if (start_i < src_min) { start_i = src_min; } if (end_i >= src_max) { end_i = src_max - 1; } if (start_i > end_i) { if (start_i >= src_max) { start_i = src_max - 1; } pixel_weights.m_SrcStart = start_i; pixel_weights.m_SrcEnd = start_i; continue; } pixel_weights.m_SrcStart = start_i; pixel_weights.m_SrcEnd = end_i; for (int j = start_i; j <= end_i; j++) { double dest_start = ((FX_FLOAT)j - base) / scale; double dest_end = ((FX_FLOAT)(j + 1) - base) / scale; if (dest_start > dest_end) { double temp = dest_start; dest_start = dest_end; dest_end = temp; } double area_start = dest_start > (FX_FLOAT)(dest_pixel) ? dest_start : (FX_FLOAT)(dest_pixel); double area_end = dest_end > (FX_FLOAT)(dest_pixel + 1) ? (FX_FLOAT)(dest_pixel + 1) : dest_end; double weight = area_start >= area_end ? 0.0f : area_end - area_start; if (weight == 0 && j == end_i) { pixel_weights.m_SrcEnd--; break; } pixel_weights.m_Weights[j - start_i] = FXSYS_round((FX_FLOAT)(weight * 65536)); } } } CStretchEngine::CStretchEngine(IFX_ScanlineComposer* pDestBitmap, FXDIB_Format dest_format, int dest_width, int dest_height, const FX_RECT& clip_rect, const CFX_DIBSource* pSrcBitmap, int flags) { m_State = 0; m_DestFormat = dest_format; m_DestBpp = dest_format & 0xff; m_SrcBpp = pSrcBitmap->GetFormat() & 0xff; m_bHasAlpha = pSrcBitmap->GetFormat() & 0x200; m_pSrcPalette = pSrcBitmap->GetPalette(); m_pDestBitmap = pDestBitmap; m_DestWidth = dest_width; m_DestHeight = dest_height; m_pInterBuf = NULL; m_pExtraAlphaBuf = NULL; m_pDestMaskScanline = NULL; m_DestClip = clip_rect; uint32_t size = clip_rect.Width(); if (size && m_DestBpp > (int)(INT_MAX / size)) { return; } size *= m_DestBpp; if (size > INT_MAX - 31) { return; } size += 31; size = size / 32 * 4; m_pDestScanline = FX_TryAlloc(uint8_t, size); if (!m_pDestScanline) { return; } if (dest_format == FXDIB_Rgb32) { FXSYS_memset(m_pDestScanline, 255, size); } m_InterPitch = (m_DestClip.Width() * m_DestBpp + 31) / 32 * 4; m_ExtraMaskPitch = (m_DestClip.Width() * 8 + 31) / 32 * 4; m_pInterBuf = NULL; m_pSource = pSrcBitmap; m_SrcWidth = pSrcBitmap->GetWidth(); m_SrcHeight = pSrcBitmap->GetHeight(); m_SrcPitch = (m_SrcWidth * m_SrcBpp + 31) / 32 * 4; if ((flags & FXDIB_NOSMOOTH) == 0) { FX_BOOL bInterpol = flags & FXDIB_INTERPOL || flags & FXDIB_BICUBIC_INTERPOL; if (!bInterpol && FXSYS_abs(dest_width) != 0 && FXSYS_abs(dest_height) < m_SrcWidth * m_SrcHeight * 8 / FXSYS_abs(dest_width)) { flags = FXDIB_INTERPOL; } m_Flags = flags; } else { m_Flags = FXDIB_NOSMOOTH; if (flags & FXDIB_DOWNSAMPLE) { m_Flags |= FXDIB_DOWNSAMPLE; } } double scale_x = (FX_FLOAT)m_SrcWidth / (FX_FLOAT)m_DestWidth; double scale_y = (FX_FLOAT)m_SrcHeight / (FX_FLOAT)m_DestHeight; double base_x = m_DestWidth > 0 ? 0.0f : (FX_FLOAT)(m_DestWidth); double base_y = m_DestHeight > 0 ? 0.0f : (FX_FLOAT)(m_DestHeight); double src_left = scale_x * ((FX_FLOAT)(clip_rect.left) + base_x); double src_right = scale_x * ((FX_FLOAT)(clip_rect.right) + base_x); double src_top = scale_y * ((FX_FLOAT)(clip_rect.top) + base_y); double src_bottom = scale_y * ((FX_FLOAT)(clip_rect.bottom) + base_y); if (src_left > src_right) { double temp = src_left; src_left = src_right; src_right = temp; } if (src_top > src_bottom) { double temp = src_top; src_top = src_bottom; src_bottom = temp; } m_SrcClip.left = (int)FXSYS_floor((FX_FLOAT)src_left); m_SrcClip.right = (int)FXSYS_ceil((FX_FLOAT)src_right); m_SrcClip.top = (int)FXSYS_floor((FX_FLOAT)src_top); m_SrcClip.bottom = (int)FXSYS_ceil((FX_FLOAT)src_bottom); FX_RECT src_rect(0, 0, m_SrcWidth, m_SrcHeight); m_SrcClip.Intersect(src_rect); if (m_SrcBpp == 1) { if (m_DestBpp == 8) { m_TransMethod = 1; } else { m_TransMethod = 2; } } else if (m_SrcBpp == 8) { if (m_DestBpp == 8) { if (!m_bHasAlpha) { m_TransMethod = 3; } else { m_TransMethod = 4; } } else { if (!m_bHasAlpha) { m_TransMethod = 5; } else { m_TransMethod = 6; } } } else { if (!m_bHasAlpha) { m_TransMethod = 7; } else { m_TransMethod = 8; } } } FX_BOOL CStretchEngine::Continue(IFX_Pause* pPause) { while (m_State == 1) { if (ContinueStretchHorz(pPause)) { return TRUE; } m_State = 2; StretchVert(); } return FALSE; } CStretchEngine::~CStretchEngine() { FX_Free(m_pDestScanline); FX_Free(m_pInterBuf); FX_Free(m_pExtraAlphaBuf); FX_Free(m_pDestMaskScanline); } FX_BOOL CStretchEngine::StartStretchHorz() { if (m_DestWidth == 0 || !m_pDestScanline || m_SrcClip.Height() > (int)((1U << 29) / m_InterPitch) || m_SrcClip.Height() == 0) { return FALSE; } m_pInterBuf = FX_TryAlloc(unsigned char, m_SrcClip.Height() * m_InterPitch); if (!m_pInterBuf) { return FALSE; } if (m_pSource && m_bHasAlpha && m_pSource->m_pAlphaMask) { m_pExtraAlphaBuf = FX_Alloc2D(unsigned char, m_SrcClip.Height(), m_ExtraMaskPitch); uint32_t size = (m_DestClip.Width() * 8 + 31) / 32 * 4; m_pDestMaskScanline = FX_TryAlloc(unsigned char, size); if (!m_pDestMaskScanline) { return FALSE; } } m_WeightTable.Calc(m_DestWidth, m_DestClip.left, m_DestClip.right, m_SrcWidth, m_SrcClip.left, m_SrcClip.right, m_Flags); if (!m_WeightTable.m_pWeightTables) { return FALSE; } m_CurRow = m_SrcClip.top; m_State = 1; return TRUE; } #define FX_STRECH_PAUSE_ROWS 10 FX_BOOL CStretchEngine::ContinueStretchHorz(IFX_Pause* pPause) { if (!m_DestWidth) { return 0; } if (m_pSource->SkipToScanline(m_CurRow, pPause)) { return TRUE; } int Bpp = m_DestBpp / 8; int rows_to_go = FX_STRECH_PAUSE_ROWS; for (; m_CurRow < m_SrcClip.bottom; m_CurRow++) { if (rows_to_go == 0) { if (pPause && pPause->NeedToPauseNow()) { return TRUE; } rows_to_go = FX_STRECH_PAUSE_ROWS; } const uint8_t* src_scan = m_pSource->GetScanline(m_CurRow); uint8_t* dest_scan = m_pInterBuf + (m_CurRow - m_SrcClip.top) * m_InterPitch; const uint8_t* src_scan_mask = NULL; uint8_t* dest_scan_mask = NULL; if (m_pExtraAlphaBuf) { src_scan_mask = m_pSource->m_pAlphaMask->GetScanline(m_CurRow); dest_scan_mask = m_pExtraAlphaBuf + (m_CurRow - m_SrcClip.top) * m_ExtraMaskPitch; } switch (m_TransMethod) { case 1: case 2: { for (int col = m_DestClip.left; col < m_DestClip.right; col++) { PixelWeight* pPixelWeights = m_WeightTable.GetPixelWeight(col); int dest_a = 0; for (int j = pPixelWeights->m_SrcStart; j <= pPixelWeights->m_SrcEnd; j++) { int pixel_weight = pPixelWeights->m_Weights[j - pPixelWeights->m_SrcStart]; if (src_scan[j / 8] & (1 << (7 - j % 8))) { dest_a += pixel_weight * 255; } } if (m_Flags & FXDIB_BICUBIC_INTERPOL) { dest_a = dest_a < 0 ? 0 : dest_a > 16711680 ? 16711680 : dest_a; } *dest_scan++ = (uint8_t)(dest_a >> 16); } break; } case 3: { for (int col = m_DestClip.left; col < m_DestClip.right; col++) { PixelWeight* pPixelWeights = m_WeightTable.GetPixelWeight(col); int dest_a = 0; for (int j = pPixelWeights->m_SrcStart; j <= pPixelWeights->m_SrcEnd; j++) { int pixel_weight = pPixelWeights->m_Weights[j - pPixelWeights->m_SrcStart]; dest_a += pixel_weight * src_scan[j]; } if (m_Flags & FXDIB_BICUBIC_INTERPOL) { dest_a = dest_a < 0 ? 0 : dest_a > 16711680 ? 16711680 : dest_a; } *dest_scan++ = (uint8_t)(dest_a >> 16); } break; } case 4: { for (int col = m_DestClip.left; col < m_DestClip.right; col++) { PixelWeight* pPixelWeights = m_WeightTable.GetPixelWeight(col); int dest_a = 0, dest_r = 0; for (int j = pPixelWeights->m_SrcStart; j <= pPixelWeights->m_SrcEnd; j++) { int pixel_weight = pPixelWeights->m_Weights[j - pPixelWeights->m_SrcStart]; pixel_weight = pixel_weight * src_scan_mask[j] / 255; dest_r += pixel_weight * src_scan[j]; dest_a += pixel_weight; } if (m_Flags & FXDIB_BICUBIC_INTERPOL) { dest_r = dest_r < 0 ? 0 : dest_r > 16711680 ? 16711680 : dest_r; dest_a = dest_a < 0 ? 0 : dest_a > 65536 ? 65536 : dest_a; } *dest_scan++ = (uint8_t)(dest_r >> 16); *dest_scan_mask++ = (uint8_t)((dest_a * 255) >> 16); } break; } case 5: { for (int col = m_DestClip.left; col < m_DestClip.right; col++) { PixelWeight* pPixelWeights = m_WeightTable.GetPixelWeight(col); int dest_r_y = 0, dest_g_m = 0, dest_b_c = 0; for (int j = pPixelWeights->m_SrcStart; j <= pPixelWeights->m_SrcEnd; j++) { int pixel_weight = pPixelWeights->m_Weights[j - pPixelWeights->m_SrcStart]; unsigned long argb_cmyk = m_pSrcPalette[src_scan[j]]; if (m_DestFormat == FXDIB_Rgb) { dest_r_y += pixel_weight * (uint8_t)(argb_cmyk >> 16); dest_g_m += pixel_weight * (uint8_t)(argb_cmyk >> 8); dest_b_c += pixel_weight * (uint8_t)argb_cmyk; } else { dest_b_c += pixel_weight * (uint8_t)(argb_cmyk >> 24); dest_g_m += pixel_weight * (uint8_t)(argb_cmyk >> 16); dest_r_y += pixel_weight * (uint8_t)(argb_cmyk >> 8); } } if (m_Flags & FXDIB_BICUBIC_INTERPOL) { dest_r_y = dest_r_y < 0 ? 0 : dest_r_y > 16711680 ? 16711680 : dest_r_y; dest_g_m = dest_g_m < 0 ? 0 : dest_g_m > 16711680 ? 16711680 : dest_g_m; dest_b_c = dest_b_c < 0 ? 0 : dest_b_c > 16711680 ? 16711680 : dest_b_c; } *dest_scan++ = (uint8_t)(dest_b_c >> 16); *dest_scan++ = (uint8_t)(dest_g_m >> 16); *dest_scan++ = (uint8_t)(dest_r_y >> 16); } break; } case 6: { for (int col = m_DestClip.left; col < m_DestClip.right; col++) { PixelWeight* pPixelWeights = m_WeightTable.GetPixelWeight(col); int dest_a = 0, dest_r_y = 0, dest_g_m = 0, dest_b_c = 0; for (int j = pPixelWeights->m_SrcStart; j <= pPixelWeights->m_SrcEnd; j++) { int pixel_weight = pPixelWeights->m_Weights[j - pPixelWeights->m_SrcStart]; pixel_weight = pixel_weight * src_scan_mask[j] / 255; unsigned long argb_cmyk = m_pSrcPalette[src_scan[j]]; if (m_DestFormat == FXDIB_Rgba) { dest_r_y += pixel_weight * (uint8_t)(argb_cmyk >> 16); dest_g_m += pixel_weight * (uint8_t)(argb_cmyk >> 8); dest_b_c += pixel_weight * (uint8_t)argb_cmyk; } else { dest_b_c += pixel_weight * (uint8_t)(argb_cmyk >> 24); dest_g_m += pixel_weight * (uint8_t)(argb_cmyk >> 16); dest_r_y += pixel_weight * (uint8_t)(argb_cmyk >> 8); } dest_a += pixel_weight; } if (m_Flags & FXDIB_BICUBIC_INTERPOL) { dest_b_c = dest_b_c < 0 ? 0 : dest_b_c > 16711680 ? 16711680 : dest_b_c; dest_g_m = dest_g_m < 0 ? 0 : dest_g_m > 16711680 ? 16711680 : dest_g_m; dest_r_y = dest_r_y < 0 ? 0 : dest_r_y > 16711680 ? 16711680 : dest_r_y; dest_a = dest_a < 0 ? 0 : dest_a > 65536 ? 65536 : dest_a; } *dest_scan++ = (uint8_t)(dest_b_c >> 16); *dest_scan++ = (uint8_t)(dest_g_m >> 16); *dest_scan++ = (uint8_t)(dest_r_y >> 16); *dest_scan_mask++ = (uint8_t)((dest_a * 255) >> 16); } break; } case 7: { for (int col = m_DestClip.left; col < m_DestClip.right; col++) { PixelWeight* pPixelWeights = m_WeightTable.GetPixelWeight(col); int dest_r_y = 0, dest_g_m = 0, dest_b_c = 0; for (int j = pPixelWeights->m_SrcStart; j <= pPixelWeights->m_SrcEnd; j++) { int pixel_weight = pPixelWeights->m_Weights[j - pPixelWeights->m_SrcStart]; const uint8_t* src_pixel = src_scan + j * Bpp; dest_b_c += pixel_weight * (*src_pixel++); dest_g_m += pixel_weight * (*src_pixel++); dest_r_y += pixel_weight * (*src_pixel); } if (m_Flags & FXDIB_BICUBIC_INTERPOL) { dest_b_c = dest_b_c < 0 ? 0 : dest_b_c > 16711680 ? 16711680 : dest_b_c; dest_g_m = dest_g_m < 0 ? 0 : dest_g_m > 16711680 ? 16711680 : dest_g_m; dest_r_y = dest_r_y < 0 ? 0 : dest_r_y > 16711680 ? 16711680 : dest_r_y; } *dest_scan++ = (uint8_t)((dest_b_c) >> 16); *dest_scan++ = (uint8_t)((dest_g_m) >> 16); *dest_scan++ = (uint8_t)((dest_r_y) >> 16); dest_scan += Bpp - 3; } break; } case 8: { for (int col = m_DestClip.left; col < m_DestClip.right; col++) { PixelWeight* pPixelWeights = m_WeightTable.GetPixelWeight(col); int dest_a = 0, dest_r_y = 0, dest_g_m = 0, dest_b_c = 0; for (int j = pPixelWeights->m_SrcStart; j <= pPixelWeights->m_SrcEnd; j++) { int pixel_weight = pPixelWeights->m_Weights[j - pPixelWeights->m_SrcStart]; const uint8_t* src_pixel = src_scan + j * Bpp; if (m_DestFormat == FXDIB_Argb) { pixel_weight = pixel_weight * src_pixel[3] / 255; } else { pixel_weight = pixel_weight * src_scan_mask[j] / 255; } dest_b_c += pixel_weight * (*src_pixel++); dest_g_m += pixel_weight * (*src_pixel++); dest_r_y += pixel_weight * (*src_pixel); dest_a += pixel_weight; } if (m_Flags & FXDIB_BICUBIC_INTERPOL) { dest_r_y = dest_r_y < 0 ? 0 : dest_r_y > 16711680 ? 16711680 : dest_r_y; dest_g_m = dest_g_m < 0 ? 0 : dest_g_m > 16711680 ? 16711680 : dest_g_m; dest_b_c = dest_b_c < 0 ? 0 : dest_b_c > 16711680 ? 16711680 : dest_b_c; dest_a = dest_a < 0 ? 0 : dest_a > 65536 ? 65536 : dest_a; } *dest_scan++ = (uint8_t)((dest_b_c) >> 16); *dest_scan++ = (uint8_t)((dest_g_m) >> 16); *dest_scan++ = (uint8_t)((dest_r_y) >> 16); if (m_DestFormat == FXDIB_Argb) { *dest_scan = (uint8_t)((dest_a * 255) >> 16); } if (dest_scan_mask) { *dest_scan_mask++ = (uint8_t)((dest_a * 255) >> 16); } dest_scan += Bpp - 3; } break; } } rows_to_go--; } return FALSE; } void CStretchEngine::StretchVert() { if (m_DestHeight == 0) { return; } CWeightTable table; table.Calc(m_DestHeight, m_DestClip.top, m_DestClip.bottom, m_SrcHeight, m_SrcClip.top, m_SrcClip.bottom, m_Flags); if (!table.m_pWeightTables) { return; } int DestBpp = m_DestBpp / 8; for (int row = m_DestClip.top; row < m_DestClip.bottom; row++) { unsigned char* dest_scan = m_pDestScanline; unsigned char* dest_sacn_mask = m_pDestMaskScanline; PixelWeight* pPixelWeights = table.GetPixelWeight(row); switch (m_TransMethod) { case 1: case 2: case 3: { for (int col = m_DestClip.left; col < m_DestClip.right; col++) { unsigned char* src_scan = m_pInterBuf + (col - m_DestClip.left) * DestBpp; int dest_a = 0; for (int j = pPixelWeights->m_SrcStart; j <= pPixelWeights->m_SrcEnd; j++) { int pixel_weight = pPixelWeights->m_Weights[j - pPixelWeights->m_SrcStart]; dest_a += pixel_weight * src_scan[(j - m_SrcClip.top) * m_InterPitch]; } if (m_Flags & FXDIB_BICUBIC_INTERPOL) { dest_a = dest_a < 0 ? 0 : dest_a > 16711680 ? 16711680 : dest_a; } *dest_scan = (uint8_t)(dest_a >> 16); dest_scan += DestBpp; } break; } case 4: { for (int col = m_DestClip.left; col < m_DestClip.right; col++) { unsigned char* src_scan = m_pInterBuf + (col - m_DestClip.left) * DestBpp; unsigned char* src_scan_mask = m_pExtraAlphaBuf + (col - m_DestClip.left); int dest_a = 0, dest_k = 0; for (int j = pPixelWeights->m_SrcStart; j <= pPixelWeights->m_SrcEnd; j++) { int pixel_weight = pPixelWeights->m_Weights[j - pPixelWeights->m_SrcStart]; dest_k += pixel_weight * src_scan[(j - m_SrcClip.top) * m_InterPitch]; dest_a += pixel_weight * src_scan_mask[(j - m_SrcClip.top) * m_ExtraMaskPitch]; } if (m_Flags & FXDIB_BICUBIC_INTERPOL) { dest_k = dest_k < 0 ? 0 : dest_k > 16711680 ? 16711680 : dest_k; dest_a = dest_a < 0 ? 0 : dest_a > 16711680 ? 16711680 : dest_a; } *dest_scan = (uint8_t)(dest_k >> 16); dest_scan += DestBpp; *dest_sacn_mask++ = (uint8_t)(dest_a >> 16); } break; } case 5: case 7: { for (int col = m_DestClip.left; col < m_DestClip.right; col++) { unsigned char* src_scan = m_pInterBuf + (col - m_DestClip.left) * DestBpp; int dest_r_y = 0, dest_g_m = 0, dest_b_c = 0; for (int j = pPixelWeights->m_SrcStart; j <= pPixelWeights->m_SrcEnd; j++) { int pixel_weight = pPixelWeights->m_Weights[j - pPixelWeights->m_SrcStart]; const uint8_t* src_pixel = src_scan + (j - m_SrcClip.top) * m_InterPitch; dest_b_c += pixel_weight * (*src_pixel++); dest_g_m += pixel_weight * (*src_pixel++); dest_r_y += pixel_weight * (*src_pixel); } if (m_Flags & FXDIB_BICUBIC_INTERPOL) { dest_r_y = dest_r_y < 0 ? 0 : dest_r_y > 16711680 ? 16711680 : dest_r_y; dest_g_m = dest_g_m < 0 ? 0 : dest_g_m > 16711680 ? 16711680 : dest_g_m; dest_b_c = dest_b_c < 0 ? 0 : dest_b_c > 16711680 ? 16711680 : dest_b_c; } dest_scan[0] = (uint8_t)((dest_b_c) >> 16); dest_scan[1] = (uint8_t)((dest_g_m) >> 16); dest_scan[2] = (uint8_t)((dest_r_y) >> 16); dest_scan += DestBpp; } break; } case 6: case 8: { for (int col = m_DestClip.left; col < m_DestClip.right; col++) { unsigned char* src_scan = m_pInterBuf + (col - m_DestClip.left) * DestBpp; unsigned char* src_scan_mask = NULL; if (m_DestFormat != FXDIB_Argb) { src_scan_mask = m_pExtraAlphaBuf + (col - m_DestClip.left); } int dest_a = 0, dest_r_y = 0, dest_g_m = 0, dest_b_c = 0; for (int j = pPixelWeights->m_SrcStart; j <= pPixelWeights->m_SrcEnd; j++) { int pixel_weight = pPixelWeights->m_Weights[j - pPixelWeights->m_SrcStart]; const uint8_t* src_pixel = src_scan + (j - m_SrcClip.top) * m_InterPitch; int mask_v = 255; if (src_scan_mask) { mask_v = src_scan_mask[(j - m_SrcClip.top) * m_ExtraMaskPitch]; } dest_b_c += pixel_weight * (*src_pixel++); dest_g_m += pixel_weight * (*src_pixel++); dest_r_y += pixel_weight * (*src_pixel); if (m_DestFormat == FXDIB_Argb) { dest_a += pixel_weight * (*(src_pixel + 1)); } else { dest_a += pixel_weight * mask_v; } } if (m_Flags & FXDIB_BICUBIC_INTERPOL) { dest_r_y = dest_r_y < 0 ? 0 : dest_r_y > 16711680 ? 16711680 : dest_r_y; dest_g_m = dest_g_m < 0 ? 0 : dest_g_m > 16711680 ? 16711680 : dest_g_m; dest_b_c = dest_b_c < 0 ? 0 : dest_b_c > 16711680 ? 16711680 : dest_b_c; dest_a = dest_a < 0 ? 0 : dest_a > 16711680 ? 16711680 : dest_a; } if (dest_a) { int r = ((uint32_t)dest_r_y) * 255 / dest_a; int g = ((uint32_t)dest_g_m) * 255 / dest_a; int b = ((uint32_t)dest_b_c) * 255 / dest_a; dest_scan[0] = b > 255 ? 255 : b < 0 ? 0 : b; dest_scan[1] = g > 255 ? 255 : g < 0 ? 0 : g; dest_scan[2] = r > 255 ? 255 : r < 0 ? 0 : r; } if (m_DestFormat == FXDIB_Argb) { dest_scan[3] = (uint8_t)((dest_a) >> 16); } else { *dest_sacn_mask = (uint8_t)((dest_a) >> 16); } dest_scan += DestBpp; if (dest_sacn_mask) { dest_sacn_mask++; } } break; } } m_pDestBitmap->ComposeScanline(row - m_DestClip.top, m_pDestScanline, m_pDestMaskScanline); } } CFX_ImageStretcher::CFX_ImageStretcher() { m_pScanline = NULL; m_pStretchEngine = NULL; m_pMaskScanline = NULL; } CFX_ImageStretcher::~CFX_ImageStretcher() { FX_Free(m_pScanline); delete m_pStretchEngine; FX_Free(m_pMaskScanline); } FXDIB_Format _GetStretchedFormat(const CFX_DIBSource* pSrc) { FXDIB_Format format = pSrc->GetFormat(); if (format == FXDIB_1bppMask) { format = FXDIB_8bppMask; } else if (format == FXDIB_1bppRgb) { format = FXDIB_8bppRgb; } else if (format == FXDIB_8bppRgb) { if (pSrc->GetPalette()) { format = FXDIB_Rgb; } } return format; } FX_BOOL CFX_ImageStretcher::Start(IFX_ScanlineComposer* pDest, const CFX_DIBSource* pSource, int dest_width, int dest_height, const FX_RECT& rect, uint32_t flags) { m_DestFormat = _GetStretchedFormat(pSource); m_DestBPP = m_DestFormat & 0xff; m_pDest = pDest; m_pSource = pSource; m_DestWidth = dest_width; m_DestHeight = dest_height; m_ClipRect = rect; m_Flags = flags; if (pSource->GetFormat() == FXDIB_1bppRgb && pSource->GetPalette()) { FX_ARGB pal[256]; int a0, r0, g0, b0, a1, r1, g1, b1; ArgbDecode(pSource->GetPaletteEntry(0), a0, r0, g0, b0); ArgbDecode(pSource->GetPaletteEntry(1), a1, r1, g1, b1); for (int i = 0; i < 256; i++) { int a = a0 + (a1 - a0) * i / 255; int r = r0 + (r1 - r0) * i / 255; int g = g0 + (g1 - g0) * i / 255; int b = b0 + (b1 - b0) * i / 255; pal[i] = ArgbEncode(a, r, g, b); } if (!pDest->SetInfo(rect.Width(), rect.Height(), m_DestFormat, pal)) { return FALSE; } } else if (pSource->GetFormat() == FXDIB_1bppCmyk && pSource->GetPalette()) { FX_CMYK pal[256]; int c0, m0, y0, k0, c1, m1, y1, k1; CmykDecode(pSource->GetPaletteEntry(0), c0, m0, y0, k0); CmykDecode(pSource->GetPaletteEntry(1), c1, m1, y1, k1); for (int i = 0; i < 256; i++) { int c = c0 + (c1 - c0) * i / 255; int m = m0 + (m1 - m0) * i / 255; int y = y0 + (y1 - y0) * i / 255; int k = k0 + (k1 - k0) * i / 255; pal[i] = CmykEncode(c, m, y, k); } if (!pDest->SetInfo(rect.Width(), rect.Height(), m_DestFormat, pal)) { return FALSE; } } else if (!pDest->SetInfo(rect.Width(), rect.Height(), m_DestFormat, NULL)) { return FALSE; } if (flags & FXDIB_DOWNSAMPLE) { return StartQuickStretch(); } return StartStretch(); } FX_BOOL CFX_ImageStretcher::Continue(IFX_Pause* pPause) { if (m_Flags & FXDIB_DOWNSAMPLE) { return ContinueQuickStretch(pPause); } return ContinueStretch(pPause); } #define MAX_PROGRESSIVE_STRETCH_PIXELS 1000000 FX_BOOL CFX_ImageStretcher::StartStretch() { m_pStretchEngine = new CStretchEngine(m_pDest, m_DestFormat, m_DestWidth, m_DestHeight, m_ClipRect, m_pSource, m_Flags); m_pStretchEngine->StartStretchHorz(); if (m_pSource->GetWidth() * m_pSource->GetHeight() < MAX_PROGRESSIVE_STRETCH_PIXELS) { m_pStretchEngine->Continue(NULL); return FALSE; } return TRUE; } FX_BOOL CFX_ImageStretcher::ContinueStretch(IFX_Pause* pPause) { return m_pStretchEngine && m_pStretchEngine->Continue(pPause); } FX_BOOL CFX_ImageStretcher::StartQuickStretch() { m_bFlipX = FALSE; m_bFlipY = FALSE; if (m_DestWidth < 0) { m_bFlipX = TRUE; m_DestWidth = -m_DestWidth; } if (m_DestHeight < 0) { m_bFlipY = TRUE; m_DestHeight = -m_DestHeight; } m_LineIndex = 0; uint32_t size = m_ClipRect.Width(); if (size && m_DestBPP > (int)(INT_MAX / size)) { return FALSE; } size *= m_DestBPP; m_pScanline = FX_Alloc(uint8_t, (size / 8 + 3) / 4 * 4); if (m_pSource->m_pAlphaMask) { m_pMaskScanline = FX_Alloc(uint8_t, (m_ClipRect.Width() + 3) / 4 * 4); } if (m_pSource->GetWidth() * m_pSource->GetHeight() < MAX_PROGRESSIVE_STRETCH_PIXELS) { ContinueQuickStretch(NULL); return FALSE; } return TRUE; } FX_BOOL CFX_ImageStretcher::ContinueQuickStretch(IFX_Pause* pPause) { if (!m_pScanline) { return FALSE; } int result_width = m_ClipRect.Width(), result_height = m_ClipRect.Height(); int src_height = m_pSource->GetHeight(); for (; m_LineIndex < result_height; m_LineIndex++) { int dest_y, src_y; if (m_bFlipY) { dest_y = result_height - m_LineIndex - 1; src_y = (m_DestHeight - (dest_y + m_ClipRect.top) - 1) * src_height / m_DestHeight; } else { dest_y = m_LineIndex; src_y = (dest_y + m_ClipRect.top) * src_height / m_DestHeight; } if (src_y >= src_height) { src_y = src_height - 1; } if (src_y < 0) { src_y = 0; } if (m_pSource->SkipToScanline(src_y, pPause)) { return TRUE; } m_pSource->DownSampleScanline(src_y, m_pScanline, m_DestBPP, m_DestWidth, m_bFlipX, m_ClipRect.left, result_width); if (m_pMaskScanline) { m_pSource->m_pAlphaMask->DownSampleScanline( src_y, m_pMaskScanline, 1, m_DestWidth, m_bFlipX, m_ClipRect.left, result_width); } m_pDest->ComposeScanline(dest_y, m_pScanline, m_pMaskScanline); } return FALSE; }