xenia-canary/third_party/crunch/crnlib/crn_dds_comp.cpp

260 lines
8.5 KiB
C++

// File: crn_dds_comp.cpp
// See Copyright Notice and license at the end of inc/crnlib.h
#include "crn_core.h"
#include "crn_dds_comp.h"
#include "crn_dynamic_stream.h"
#include "crn_lzma_codec.h"
namespace crnlib
{
dds_comp::dds_comp() :
m_pParams(NULL),
m_pixel_fmt(PIXEL_FMT_INVALID),
m_pQDXT_state(NULL)
{
}
dds_comp::~dds_comp()
{
crnlib_delete(m_pQDXT_state);
}
void dds_comp::clear()
{
m_src_tex.clear();
m_packed_tex.clear();
m_comp_data.clear();
m_pParams = NULL;
m_pixel_fmt = PIXEL_FMT_INVALID;
m_task_pool.deinit();
if (m_pQDXT_state)
{
crnlib_delete(m_pQDXT_state);
m_pQDXT_state = NULL;
}
}
bool dds_comp::create_dds_tex(mipmapped_texture &dds_tex)
{
image_u8 images[cCRNMaxFaces][cCRNMaxLevels];
bool has_alpha = false;
for (uint face_index = 0; face_index < m_pParams->m_faces; face_index++)
{
for (uint level_index = 0; level_index < m_pParams->m_levels; level_index++)
{
const uint width = math::maximum(1U, m_pParams->m_width >> level_index);
const uint height = math::maximum(1U, m_pParams->m_height >> level_index);
if (!m_pParams->m_pImages[face_index][level_index])
return false;
images[face_index][level_index].alias((color_quad_u8*)m_pParams->m_pImages[face_index][level_index], width, height);
if (!has_alpha)
has_alpha = image_utils::has_alpha(images[face_index][level_index]);
}
}
for (uint face_index = 0; face_index < m_pParams->m_faces; face_index++)
for (uint level_index = 0; level_index < m_pParams->m_levels; level_index++)
images[face_index][level_index].set_component_valid(3, has_alpha);
image_utils::conversion_type conv_type = image_utils::get_image_conversion_type_from_crn_format((crn_format)m_pParams->m_format);
if (conv_type != image_utils::cConversion_Invalid)
{
for (uint face_index = 0; face_index < m_pParams->m_faces; face_index++)
{
for (uint level_index = 0; level_index < m_pParams->m_levels; level_index++)
{
image_u8 cooked_image(images[face_index][level_index]);
image_utils::convert_image(cooked_image, conv_type);
images[face_index][level_index].swap(cooked_image);
}
}
}
face_vec faces(m_pParams->m_faces);
for (uint face_index = 0; face_index < m_pParams->m_faces; face_index++)
{
for (uint level_index = 0; level_index < m_pParams->m_levels; level_index++)
{
mip_level *pMip = crnlib_new<mip_level>();
image_u8 *pImage = crnlib_new<image_u8>();
pImage->swap(images[face_index][level_index]);
pMip->assign(pImage);
faces[face_index].push_back(pMip);
}
}
dds_tex.assign(faces);
#ifdef CRNLIB_BUILD_DEBUG
CRNLIB_ASSERT(dds_tex.check());
#endif
return true;
}
static bool progress_callback_func(uint percentage_complete, void* pUser_data_ptr)
{
const crn_comp_params& params = *(const crn_comp_params*)pUser_data_ptr;
return params.m_pProgress_func(0, 1, percentage_complete, 100, params.m_pProgress_func_data) != 0;
}
static bool progress_callback_func_phase_0(uint percentage_complete, void* pUser_data_ptr)
{
const crn_comp_params& params = *(const crn_comp_params*)pUser_data_ptr;
return params.m_pProgress_func(0, 2, percentage_complete, 100, params.m_pProgress_func_data) != 0;
}
static bool progress_callback_func_phase_1(uint percentage_complete, void* pUser_data_ptr)
{
const crn_comp_params& params = *(const crn_comp_params*)pUser_data_ptr;
return params.m_pProgress_func(1, 2, percentage_complete, 100, params.m_pProgress_func_data) != 0;
}
bool dds_comp::convert_to_dxt(const crn_comp_params& params)
{
if ((params.m_quality_level == cCRNMaxQualityLevel) || (params.m_format == cCRNFmtDXT3))
{
m_packed_tex = m_src_tex;
if (!m_packed_tex.convert(m_pixel_fmt, false, m_pack_params))
return false;
}
else
{
const bool hierarchical = (params.m_flags & cCRNCompFlagHierarchical) != 0;
m_q1_params.m_quality_level = params.m_quality_level;
m_q1_params.m_hierarchical = hierarchical;
m_q5_params.m_quality_level = params.m_quality_level;
m_q5_params.m_hierarchical = hierarchical;
if (!m_pQDXT_state)
{
m_pQDXT_state = crnlib_new<mipmapped_texture::qdxt_state>(m_task_pool);
if (params.m_pProgress_func)
{
m_q1_params.m_pProgress_func = progress_callback_func_phase_0;
m_q1_params.m_pProgress_data = (void*)&params;
m_q5_params.m_pProgress_func = progress_callback_func_phase_0;
m_q5_params.m_pProgress_data = (void*)&params;
}
if (!m_src_tex.qdxt_pack_init(*m_pQDXT_state, m_packed_tex, m_q1_params, m_q5_params, m_pixel_fmt, false))
return false;
if (params.m_pProgress_func)
{
m_q1_params.m_pProgress_func = progress_callback_func_phase_1;
m_q5_params.m_pProgress_func = progress_callback_func_phase_1;
}
}
else
{
if (params.m_pProgress_func)
{
m_q1_params.m_pProgress_func = progress_callback_func;
m_q1_params.m_pProgress_data = (void*)&params;
m_q5_params.m_pProgress_func = progress_callback_func;
m_q5_params.m_pProgress_data = (void*)&params;
}
}
if (!m_src_tex.qdxt_pack(*m_pQDXT_state, m_packed_tex, m_q1_params, m_q5_params))
return false;
}
return true;
}
bool dds_comp::compress_init(const crn_comp_params& params)
{
clear();
m_pParams = &params;
if ((math::minimum(m_pParams->m_width, m_pParams->m_height) < 1) || (math::maximum(m_pParams->m_width, m_pParams->m_height) > cCRNMaxLevelResolution))
return false;
if (math::minimum(m_pParams->m_faces, m_pParams->m_levels) < 1)
return false;
if (!create_dds_tex(m_src_tex))
return false;
m_pack_params.init(*m_pParams);
if (params.m_pProgress_func)
{
m_pack_params.m_pProgress_callback = progress_callback_func;
m_pack_params.m_pProgress_callback_user_data_ptr = (void*)&params;
}
m_pixel_fmt = pixel_format_helpers::convert_crn_format_to_pixel_format(static_cast<crn_format>(m_pParams->m_format));
if (m_pixel_fmt == PIXEL_FMT_INVALID)
return false;
if ((m_pixel_fmt == PIXEL_FMT_DXT1) && (m_src_tex.has_alpha()) && (m_pack_params.m_use_both_block_types) && (m_pParams->m_flags & cCRNCompFlagDXT1AForTransparency))
m_pixel_fmt = PIXEL_FMT_DXT1A;
if (!m_task_pool.init(m_pParams->m_num_helper_threads))
return false;
m_pack_params.m_pTask_pool = &m_task_pool;
const bool hierarchical = (params.m_flags & cCRNCompFlagHierarchical) != 0;
m_q1_params.init(m_pack_params, params.m_quality_level, hierarchical);
m_q5_params.init(m_pack_params, params.m_quality_level, hierarchical);
return true;
}
bool dds_comp::compress_pass(const crn_comp_params& params, float *pEffective_bitrate)
{
if (pEffective_bitrate) *pEffective_bitrate = 0.0f;
if (!m_pParams)
return false;
if (!convert_to_dxt(params))
return false;
dynamic_stream out_stream;
out_stream.reserve(512*1024);
data_stream_serializer serializer(out_stream);
if (!m_packed_tex.write_dds(serializer))
return false;
out_stream.reserve(0);
m_comp_data.swap(out_stream.get_buf());
if (pEffective_bitrate)
{
lzma_codec lossless_codec;
crnlib::vector<uint8> cmp_tex_bytes;
if (lossless_codec.pack(m_comp_data.get_ptr(), m_comp_data.size(), cmp_tex_bytes))
{
uint comp_size = cmp_tex_bytes.size();
if (comp_size)
{
*pEffective_bitrate = (comp_size * 8.0f) / m_src_tex.get_total_pixels_in_all_faces_and_mips();
}
}
}
return true;
}
void dds_comp::compress_deinit()
{
clear();
}
} // namespace crnlib