/* GStreamer * Copyright (C) <2019> Seungha Yang * Copyright (C) <2019> Jeongki Kim * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library 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 * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, * Boston, MA 02110-1301, USA. */ #ifdef HAVE_CONFIG_H # include #endif #include "gstd3d11colorconverter.h" #include "gstd3d11utils.h" #include "gstd3d11device.h" #include "gstd3d11shader.h" #include "gstd3d11format.h" #include GST_DEBUG_CATEGORY_EXTERN (gst_d3d11_colorconverter_debug); #define GST_CAT_DEFAULT gst_d3d11_colorconverter_debug /* *INDENT-OFF* */ typedef struct { FLOAT trans_matrix[12]; FLOAT padding[4]; } PixelShaderColorTransform; typedef struct { struct { FLOAT x; FLOAT y; FLOAT z; } position; struct { FLOAT x; FLOAT y; } texture; } VertexData; typedef struct { const gchar *constant_buffer; const gchar *func; } PixelShaderTemplate; #define COLOR_TRANSFORM_COEFF \ "cbuffer PixelShaderColorTransform : register(b0)\n" \ "{\n" \ " float3x4 trans_matrix;\n" \ " float3 padding;\n" \ "};\n" #define HLSL_FUNC_YUV_TO_RGB \ "float3 yuv_to_rgb (float3 yuv)\n" \ "{\n" \ " yuv += float3(-0.062745f, -0.501960f, -0.501960f);\n" \ " yuv = mul(yuv, trans_matrix);\n" \ " return saturate(yuv);\n" \ "}\n" #define HLSL_FUNC_RGB_TO_YUV \ "float3 rgb_to_yuv (float3 rgb)\n" \ "{\n" \ " float3 yuv;\n" \ " yuv = mul(rgb, trans_matrix);\n" \ " yuv += float3(0.062745f, 0.501960f, 0.501960f);\n" \ " return saturate(yuv);\n" \ "}\n" static const PixelShaderTemplate templ_REORDER = { NULL, NULL }; static const PixelShaderTemplate templ_YUV_to_RGB = { COLOR_TRANSFORM_COEFF, HLSL_FUNC_YUV_TO_RGB }; #if 0 static const PixelShaderTemplate templ_RGB_to_YUV = { COLOR_TRANSFORM_COEFF, HLSL_FUNC_RGB_TO_YUV }; #endif static const gchar templ_REORDER_BODY[] = " float4 sample;\n" " sample = shaderTexture[0].Sample(samplerState, input.Texture);\n" /* alpha channel */ " %s\n" " return sample;\n"; static const gchar templ_VUYA_to_RGB_BODY[] = " float4 sample, rgba;\n" " sample.x = shaderTexture[0].Sample(samplerState, input.Texture).z;\n" " sample.y = shaderTexture[0].Sample(samplerState, input.Texture).y;\n" " sample.z = shaderTexture[0].Sample(samplerState, input.Texture).x;\n" " sample.a = shaderTexture[0].Sample(samplerState, input.Texture).a;\n" " rgba.rgb = yuv_to_rgb (sample.xyz);\n" " rgba.a = sample.a;\n" " return rgba;\n"; #if 0 static const gchar templ_RGB_to_VUYA_BODY[] = " float4 sample, vuya;\n" " sample = shaderTexture[0].Sample(samplerState, input.Texture);\n" " vuya.zyx = rgb_to_yuv (sample.rgb);\n" " vuya.a = %s;\n" " return vuya;\n"; #endif /* YUV to RGB conversion */ static const gchar templ_PLANAR_YUV_to_RGB_BODY[] = " float4 sample, rgba;\n" " sample.x = shaderTexture[0].Sample(samplerState, input.Texture).x;\n" " sample.y = shaderTexture[1].Sample(samplerState, input.Texture).x;\n" " sample.z = shaderTexture[2].Sample(samplerState, input.Texture).x;\n" " rgba.rgb = yuv_to_rgb (sample.xyz);\n" " rgba.a = 1.0;\n" " return rgba;\n"; static const gchar templ_PLANAR_YUV_HIGH_to_RGB_BODY[] = " float4 sample, rgba;\n" " sample.x = shaderTexture[0].Sample(samplerState, input.Texture).x * %d;\n" " sample.y = shaderTexture[1].Sample(samplerState, input.Texture).x * %d;\n" " sample.z = shaderTexture[2].Sample(samplerState, input.Texture).x * %d;\n" " rgba.rgb = yuv_to_rgb (sample.xyz);\n" " rgba.a = 1.0;\n" " return rgba;\n"; /* FIXME: add RGB to planar */ static const gchar templ_SEMI_PLANAR_to_RGB_BODY[] = " float4 sample, rgba;\n" " sample.x = shaderTexture[0].Sample(samplerState, input.Texture).x;\n" " sample.yz = shaderTexture[1].Sample(samplerState, input.Texture).xy;\n" " rgba.rgb = yuv_to_rgb (sample.xyz);\n" " rgba.a = 1.0;\n" " return rgba;\n"; /* FIXME: add RGB to semi-planar */ static const gchar templ_pixel_shader[] = /* constant buffer */ "%s\n" "Texture2D shaderTexture[4];\n" "SamplerState samplerState;\n" "\n" "struct PS_INPUT\n" "{\n" " float4 Position: SV_POSITION;\n" " float3 Texture: TEXCOORD0;\n" "};\n" "\n" /* rgb <-> yuv function */ "%s\n" "float4 main(PS_INPUT input): SV_TARGET\n" "{\n" "%s" "}\n"; static const gchar templ_vertex_shader[] = "struct VS_INPUT\n" "{\n" " float4 Position : POSITION;\n" " float4 Texture : TEXCOORD0;\n" "};\n" "\n" "struct VS_OUTPUT\n" "{\n" " float4 Position: SV_POSITION;\n" " float4 Texture: TEXCOORD0;\n" "};\n" "\n" "VS_OUTPUT main(VS_INPUT input)\n" "{\n" " return input;\n" "}\n"; /* *INDENT-ON* */ typedef struct { const PixelShaderTemplate *templ; gchar *ps_body; PixelShaderColorTransform transform; } ConvertInfo; struct _GstD3D11ColorConverter { GstD3D11Device *device; GstVideoInfo in_info; GstVideoInfo out_info; const GstD3D11Format *in_d3d11_format; const GstD3D11Format *out_d3d11_format; guint num_input_view; guint num_output_view; GstD3D11Quad *quad; D3D11_VIEWPORT viewport; ConvertInfo convert_info; }; /* from video-converter.c */ typedef struct { gfloat dm[4][4]; } MatrixData; static void color_matrix_set_identity (MatrixData * m) { gint i, j; for (i = 0; i < 4; i++) { for (j = 0; j < 4; j++) { m->dm[i][j] = (i == j); } } } static void color_matrix_copy (MatrixData * d, const MatrixData * s) { gint i, j; for (i = 0; i < 4; i++) for (j = 0; j < 4; j++) d->dm[i][j] = s->dm[i][j]; } /* Perform 4x4 matrix multiplication: * - @dst@ = @a@ * @b@ * - @dst@ may be a pointer to @a@ andor @b@ */ static void color_matrix_multiply (MatrixData * dst, MatrixData * a, MatrixData * b) { MatrixData tmp; gint i, j, k; for (i = 0; i < 4; i++) { for (j = 0; j < 4; j++) { gfloat x = 0; for (k = 0; k < 4; k++) { x += a->dm[i][k] * b->dm[k][j]; } tmp.dm[i][j] = x; } } color_matrix_copy (dst, &tmp); } static void color_matrix_offset_components (MatrixData * m, gfloat a1, gfloat a2, gfloat a3) { MatrixData a; color_matrix_set_identity (&a); a.dm[0][3] = a1; a.dm[1][3] = a2; a.dm[2][3] = a3; color_matrix_multiply (m, &a, m); } static void color_matrix_scale_components (MatrixData * m, gfloat a1, gfloat a2, gfloat a3) { MatrixData a; color_matrix_set_identity (&a); a.dm[0][0] = a1; a.dm[1][1] = a2; a.dm[2][2] = a3; color_matrix_multiply (m, &a, m); } static void color_matrix_debug (GstD3D11ColorConverter * self, const MatrixData * s) { GST_DEBUG ("[%f %f %f %f]", s->dm[0][0], s->dm[0][1], s->dm[0][2], s->dm[0][3]); GST_DEBUG ("[%f %f %f %f]", s->dm[1][0], s->dm[1][1], s->dm[1][2], s->dm[1][3]); GST_DEBUG ("[%f %f %f %f]", s->dm[2][0], s->dm[2][1], s->dm[2][2], s->dm[2][3]); GST_DEBUG ("[%f %f %f %f]", s->dm[3][0], s->dm[3][1], s->dm[3][2], s->dm[3][3]); } static void color_matrix_YCbCr_to_RGB (MatrixData * m, gfloat Kr, gfloat Kb) { gfloat Kg = 1.0 - Kr - Kb; MatrixData k = { { {1., 0., 2 * (1 - Kr), 0.}, {1., -2 * Kb * (1 - Kb) / Kg, -2 * Kr * (1 - Kr) / Kg, 0.}, {1., 2 * (1 - Kb), 0., 0.}, {0., 0., 0., 1.}, } }; color_matrix_multiply (m, &k, m); } static void color_matrix_RGB_to_YCbCr (MatrixData * m, gfloat Kr, gfloat Kb) { gfloat Kg = 1.0 - Kr - Kb; MatrixData k; gfloat x; k.dm[0][0] = Kr; k.dm[0][1] = Kg; k.dm[0][2] = Kb; k.dm[0][3] = 0; x = 1 / (2 * (1 - Kb)); k.dm[1][0] = -x * Kr; k.dm[1][1] = -x * Kg; k.dm[1][2] = x * (1 - Kb); k.dm[1][3] = 0; x = 1 / (2 * (1 - Kr)); k.dm[2][0] = x * (1 - Kr); k.dm[2][1] = -x * Kg; k.dm[2][2] = -x * Kb; k.dm[2][3] = 0; k.dm[3][0] = 0; k.dm[3][1] = 0; k.dm[3][2] = 0; k.dm[3][3] = 1; color_matrix_multiply (m, &k, m); } static void compute_matrix_to_RGB (GstD3D11ColorConverter * self, MatrixData * data, GstVideoInfo * info) { gdouble Kr = 0, Kb = 0; gint offset[4], scale[4]; /* bring color components to [0..1.0] range */ gst_video_color_range_offsets (info->colorimetry.range, info->finfo, offset, scale); color_matrix_offset_components (data, -offset[0], -offset[1], -offset[2]); color_matrix_scale_components (data, 1 / ((float) scale[0]), 1 / ((float) scale[1]), 1 / ((float) scale[2])); if (!GST_VIDEO_INFO_IS_RGB (info)) { /* bring components to R'G'B' space */ if (gst_video_color_matrix_get_Kr_Kb (info->colorimetry.matrix, &Kr, &Kb)) color_matrix_YCbCr_to_RGB (data, Kr, Kb); } color_matrix_debug (self, data); } static void compute_matrix_to_YUV (GstD3D11ColorConverter * self, MatrixData * data, GstVideoInfo * info) { gdouble Kr = 0, Kb = 0; gint offset[4], scale[4]; if (!GST_VIDEO_INFO_IS_RGB (info)) { /* bring components to YCbCr space */ if (gst_video_color_matrix_get_Kr_Kb (info->colorimetry.matrix, &Kr, &Kb)) color_matrix_RGB_to_YCbCr (data, Kr, Kb); } /* bring color components to nominal range */ gst_video_color_range_offsets (info->colorimetry.range, info->finfo, offset, scale); color_matrix_scale_components (data, (float) scale[0], (float) scale[1], (float) scale[2]); color_matrix_offset_components (data, offset[0], offset[1], offset[2]); color_matrix_debug (self, data); } static gboolean converter_get_matrix (GstD3D11ColorConverter * self, MatrixData * matrix, GstVideoInfo * in_info, GstVideoInfo * out_info) { gboolean same_matrix; guint in_bits, out_bits; in_bits = GST_VIDEO_INFO_COMP_DEPTH (in_info, 0); out_bits = GST_VIDEO_INFO_COMP_DEPTH (out_info, 0); same_matrix = in_info->colorimetry.matrix == out_info->colorimetry.matrix; GST_DEBUG ("matrix %d -> %d (%d)", in_info->colorimetry.matrix, out_info->colorimetry.matrix, same_matrix); color_matrix_set_identity (matrix); if (same_matrix) { GST_DEBUG ("conversion matrix is not required"); return FALSE; } if (in_bits < out_bits) { gint scale = 1 << (out_bits - in_bits); color_matrix_scale_components (matrix, 1 / (float) scale, 1 / (float) scale, 1 / (float) scale); } GST_DEBUG ("to RGB matrix"); compute_matrix_to_RGB (self, matrix, in_info); GST_DEBUG ("current matrix"); color_matrix_debug (self, matrix); GST_DEBUG ("to YUV matrix"); compute_matrix_to_YUV (self, matrix, out_info); GST_DEBUG ("current matrix"); color_matrix_debug (self, matrix); if (in_bits > out_bits) { gint scale = 1 << (in_bits - out_bits); color_matrix_scale_components (matrix, (float) scale, (float) scale, (float) scale); } GST_DEBUG ("final matrix"); color_matrix_debug (self, matrix); return TRUE; } static gboolean setup_convert_info_rgb_to_rgb (GstD3D11ColorConverter * self, const GstVideoInfo * in_info, const GstVideoInfo * out_info) { ConvertInfo *convert_info = &self->convert_info; GstVideoFormat in_format = GST_VIDEO_INFO_FORMAT (in_info); #define IS_RGBX_FORMAT(f) \ ((f) == GST_VIDEO_FORMAT_RGBx || \ (f) == GST_VIDEO_FORMAT_xRGB || \ (f) == GST_VIDEO_FORMAT_BGRx || \ (f) == GST_VIDEO_FORMAT_xBGR) convert_info->templ = &templ_REORDER; convert_info->ps_body = g_strdup_printf (templ_REORDER_BODY, IS_RGBX_FORMAT (in_format) ? "sample.a = 1.0f;" : ""); #undef IS_RGBX_FORMAT return TRUE; } static gboolean setup_convert_info_yuv_to_rgb (GstD3D11ColorConverter * self, const GstVideoInfo * in_info, const GstVideoInfo * out_info) { ConvertInfo *info = &self->convert_info; info->templ = &templ_YUV_to_RGB; switch (GST_VIDEO_INFO_FORMAT (in_info)) { case GST_VIDEO_FORMAT_VUYA: info->ps_body = g_strdup_printf (templ_VUYA_to_RGB_BODY); break; case GST_VIDEO_FORMAT_I420: info->ps_body = g_strdup_printf (templ_PLANAR_YUV_to_RGB_BODY); break; case GST_VIDEO_FORMAT_I420_10LE: info->ps_body = g_strdup_printf (templ_PLANAR_YUV_HIGH_to_RGB_BODY, 64, 64, 64); break; case GST_VIDEO_FORMAT_NV12: case GST_VIDEO_FORMAT_P010_10LE: info->ps_body = g_strdup_printf (templ_SEMI_PLANAR_to_RGB_BODY); break; default: GST_FIXME_OBJECT (self, "Unhandled input format %s", gst_video_format_to_string (GST_VIDEO_INFO_FORMAT (in_info))); return FALSE; } return TRUE; } static gboolean setup_convert_info_rgb_to_yuv (GstD3D11ColorConverter * self, const GstVideoInfo * in_info, const GstVideoInfo * out_info) { GST_FIXME ("Implement RGB to YUV format conversion"); return FALSE; } static gboolean setup_convert_info_yuv_to_yuv (GstD3D11ColorConverter * self, const GstVideoInfo * in_info, const GstVideoInfo * out_info) { GST_FIXME ("Implement YUV to YUV format conversion"); return FALSE; } typedef struct { GstD3D11ColorConverter *self; GstVideoInfo *in_info; GstVideoInfo *out_info; gboolean ret; } SetupShaderData; static void gst_d3d11_color_convert_setup_shader (GstD3D11Device * device, SetupShaderData * data) { GstD3D11ColorConverter *self = data->self; HRESULT hr; D3D11_SAMPLER_DESC sampler_desc = { 0, }; D3D11_INPUT_ELEMENT_DESC input_desc[2] = { 0, }; D3D11_BUFFER_DESC buffer_desc = { 0, }; D3D11_MAPPED_SUBRESOURCE map; VertexData *vertex_data; WORD *indices; ID3D11Device *device_handle; ID3D11DeviceContext *context_handle; gchar *shader_code = NULL; ConvertInfo *convert_info = &self->convert_info; ID3D11PixelShader *ps = NULL; ID3D11VertexShader *vs = NULL; ID3D11InputLayout *layout = NULL; ID3D11SamplerState *sampler = NULL; ID3D11Buffer *const_buffer = NULL; ID3D11Buffer *vertex_buffer = NULL; ID3D11Buffer *index_buffer = NULL; const guint index_count = 2 * 3; data->ret = TRUE; device_handle = gst_d3d11_device_get_device_handle (device); context_handle = gst_d3d11_device_get_device_context_handle (device); /* bilinear filtering */ sampler_desc.Filter = D3D11_FILTER_MIN_MAG_LINEAR_MIP_POINT; sampler_desc.AddressU = D3D11_TEXTURE_ADDRESS_CLAMP; sampler_desc.AddressV = D3D11_TEXTURE_ADDRESS_CLAMP; sampler_desc.AddressW = D3D11_TEXTURE_ADDRESS_CLAMP; sampler_desc.ComparisonFunc = D3D11_COMPARISON_ALWAYS; sampler_desc.MinLOD = 0; sampler_desc.MaxLOD = D3D11_FLOAT32_MAX; hr = ID3D11Device_CreateSamplerState (device_handle, &sampler_desc, &sampler); if (!gst_d3d11_result (hr, device)) { GST_ERROR ("Couldn't create sampler state, hr: 0x%x", (guint) hr); data->ret = FALSE; goto clear; } shader_code = g_strdup_printf (templ_pixel_shader, convert_info->templ->constant_buffer ? convert_info->templ->constant_buffer : "", convert_info->templ->func ? convert_info->templ->func : "", convert_info->ps_body); GST_LOG ("Create Pixel Shader \n%s", shader_code); if (!gst_d3d11_create_pixel_shader (device, shader_code, &ps)) { GST_ERROR ("Couldn't create pixel shader"); g_free (shader_code); data->ret = FALSE; goto clear; } g_free (shader_code); if (convert_info->templ->constant_buffer) { D3D11_BUFFER_DESC const_buffer_desc = { 0, }; const_buffer_desc.Usage = D3D11_USAGE_DYNAMIC; const_buffer_desc.ByteWidth = sizeof (PixelShaderColorTransform); const_buffer_desc.BindFlags = D3D11_BIND_CONSTANT_BUFFER; const_buffer_desc.CPUAccessFlags = D3D11_CPU_ACCESS_WRITE; const_buffer_desc.MiscFlags = 0; const_buffer_desc.StructureByteStride = 0; hr = ID3D11Device_CreateBuffer (device_handle, &const_buffer_desc, NULL, &const_buffer); if (!gst_d3d11_result (hr, device)) { GST_ERROR ("Couldn't create constant buffer, hr: 0x%x", (guint) hr); data->ret = FALSE; goto clear; } gst_d3d11_device_lock (device); hr = ID3D11DeviceContext_Map (context_handle, (ID3D11Resource *) const_buffer, 0, D3D11_MAP_WRITE_DISCARD, 0, &map); if (!gst_d3d11_result (hr, device)) { GST_ERROR ("Couldn't map constant buffer, hr: 0x%x", (guint) hr); data->ret = FALSE; gst_d3d11_device_unlock (device); goto clear; } memcpy (map.pData, &convert_info->transform, sizeof (PixelShaderColorTransform)); ID3D11DeviceContext_Unmap (context_handle, (ID3D11Resource *) const_buffer, 0); gst_d3d11_device_unlock (device); } input_desc[0].SemanticName = "POSITION"; input_desc[0].SemanticIndex = 0; input_desc[0].Format = DXGI_FORMAT_R32G32B32_FLOAT; input_desc[0].InputSlot = 0; input_desc[0].AlignedByteOffset = D3D11_APPEND_ALIGNED_ELEMENT; input_desc[0].InputSlotClass = D3D11_INPUT_PER_VERTEX_DATA; input_desc[0].InstanceDataStepRate = 0; input_desc[1].SemanticName = "TEXCOORD"; input_desc[1].SemanticIndex = 0; input_desc[1].Format = DXGI_FORMAT_R32G32_FLOAT; input_desc[1].InputSlot = 0; input_desc[1].AlignedByteOffset = D3D11_APPEND_ALIGNED_ELEMENT; input_desc[1].InputSlotClass = D3D11_INPUT_PER_VERTEX_DATA; input_desc[1].InstanceDataStepRate = 0; if (!gst_d3d11_create_vertex_shader (device, templ_vertex_shader, input_desc, G_N_ELEMENTS (input_desc), &vs, &layout)) { GST_ERROR ("Couldn't vertex pixel shader"); data->ret = FALSE; goto clear; } /* setup vertext buffer and index buffer */ buffer_desc.Usage = D3D11_USAGE_DYNAMIC; buffer_desc.ByteWidth = sizeof (VertexData) * 4; buffer_desc.BindFlags = D3D11_BIND_VERTEX_BUFFER; buffer_desc.CPUAccessFlags = D3D11_CPU_ACCESS_WRITE; hr = ID3D11Device_CreateBuffer (device_handle, &buffer_desc, NULL, &vertex_buffer); if (!gst_d3d11_result (hr, device)) { GST_ERROR ("Couldn't create vertex buffer, hr: 0x%x", (guint) hr); data->ret = FALSE; goto clear; } buffer_desc.Usage = D3D11_USAGE_DYNAMIC; buffer_desc.ByteWidth = sizeof (WORD) * index_count; buffer_desc.BindFlags = D3D11_BIND_INDEX_BUFFER; buffer_desc.CPUAccessFlags = D3D11_CPU_ACCESS_WRITE; hr = ID3D11Device_CreateBuffer (device_handle, &buffer_desc, NULL, &index_buffer); if (!gst_d3d11_result (hr, device)) { GST_ERROR ("Couldn't create index buffer, hr: 0x%x", (guint) hr); data->ret = FALSE; goto clear; } gst_d3d11_device_lock (device); hr = ID3D11DeviceContext_Map (context_handle, (ID3D11Resource *) vertex_buffer, 0, D3D11_MAP_WRITE_DISCARD, 0, &map); if (!gst_d3d11_result (hr, device)) { GST_ERROR ("Couldn't map vertex buffer, hr: 0x%x", (guint) hr); data->ret = FALSE; gst_d3d11_device_unlock (device); goto clear; } vertex_data = (VertexData *) map.pData; hr = ID3D11DeviceContext_Map (context_handle, (ID3D11Resource *) index_buffer, 0, D3D11_MAP_WRITE_DISCARD, 0, &map); if (!gst_d3d11_result (hr, device)) { GST_ERROR ("Couldn't map index buffer, hr: 0x%x", (guint) hr); ID3D11DeviceContext_Unmap (context_handle, (ID3D11Resource *) vertex_buffer, 0); gst_d3d11_device_unlock (device); data->ret = FALSE; goto clear; } indices = (WORD *) map.pData; /* bottom left */ vertex_data[0].position.x = -1.0f; vertex_data[0].position.y = -1.0f; vertex_data[0].position.z = 0.0f; vertex_data[0].texture.x = 0.0f; vertex_data[0].texture.y = 1.0f; /* top left */ vertex_data[1].position.x = -1.0f; vertex_data[1].position.y = 1.0f; vertex_data[1].position.z = 0.0f; vertex_data[1].texture.x = 0.0f; vertex_data[1].texture.y = 0.0f; /* top right */ vertex_data[2].position.x = 1.0f; vertex_data[2].position.y = 1.0f; vertex_data[2].position.z = 0.0f; vertex_data[2].texture.x = 1.0f; vertex_data[2].texture.y = 0.0f; /* bottom right */ vertex_data[3].position.x = 1.0f; vertex_data[3].position.y = -1.0f; vertex_data[3].position.z = 0.0f; vertex_data[3].texture.x = 1.0f; vertex_data[3].texture.y = 1.0f; /* clockwise indexing */ indices[0] = 0; /* bottom left */ indices[1] = 1; /* top left */ indices[2] = 2; /* top right */ indices[3] = 3; /* bottom right */ indices[4] = 0; /* bottom left */ indices[5] = 2; /* top right */ ID3D11DeviceContext_Unmap (context_handle, (ID3D11Resource *) vertex_buffer, 0); ID3D11DeviceContext_Unmap (context_handle, (ID3D11Resource *) index_buffer, 0); gst_d3d11_device_unlock (device); self->quad = gst_d3d11_quad_new (device, ps, vs, layout, sampler, const_buffer, vertex_buffer, sizeof (VertexData), index_buffer, DXGI_FORMAT_R16_UINT, index_count); self->num_input_view = GST_VIDEO_INFO_N_PLANES (data->in_info); self->num_output_view = GST_VIDEO_INFO_N_PLANES (data->out_info); clear: if (ps) ID3D11PixelShader_Release (ps); if (vs) ID3D11VertexShader_Release (vs); if (layout) ID3D11InputLayout_Release (layout); if (sampler) ID3D11SamplerState_Release (sampler); if (const_buffer) ID3D11Buffer_Release (const_buffer); if (vertex_buffer) ID3D11Buffer_Release (vertex_buffer); if (index_buffer) ID3D11Buffer_Release (index_buffer); return; } GstD3D11ColorConverter * gst_d3d11_color_converter_new (GstD3D11Device * device, GstVideoInfo * in_info, GstVideoInfo * out_info) { SetupShaderData data; const GstVideoInfo *unknown_info; const GstD3D11Format *in_d3d11_format; const GstD3D11Format *out_d3d11_format; gboolean is_supported = FALSE; MatrixData matrix; GstD3D11ColorConverter *converter = NULL; g_return_val_if_fail (GST_IS_D3D11_DEVICE (device), NULL); g_return_val_if_fail (in_info != NULL, NULL); g_return_val_if_fail (out_info != NULL, NULL); GST_DEBUG ("Setup convert with format %s -> %s", gst_video_format_to_string (GST_VIDEO_INFO_FORMAT (in_info)), gst_video_format_to_string (GST_VIDEO_INFO_FORMAT (out_info))); in_d3d11_format = gst_d3d11_format_from_gst (GST_VIDEO_INFO_FORMAT (in_info)); if (!in_d3d11_format) { unknown_info = in_info; goto format_unknown; } out_d3d11_format = gst_d3d11_format_from_gst (GST_VIDEO_INFO_FORMAT (out_info)); if (!out_d3d11_format) { unknown_info = out_info; goto format_unknown; } converter = g_new0 (GstD3D11ColorConverter, 1); converter->device = gst_object_ref (device); if (GST_VIDEO_INFO_IS_RGB (in_info)) { if (GST_VIDEO_INFO_IS_RGB (out_info)) { is_supported = setup_convert_info_rgb_to_rgb (converter, in_info, out_info); } else if (GST_VIDEO_INFO_IS_YUV (out_info)) { is_supported = setup_convert_info_rgb_to_yuv (converter, in_info, out_info); } } else if (GST_VIDEO_INFO_IS_YUV (in_info)) { if (GST_VIDEO_INFO_IS_RGB (out_info)) { is_supported = setup_convert_info_yuv_to_rgb (converter, in_info, out_info); } else if (GST_VIDEO_INFO_IS_YUV (out_info)) { is_supported = setup_convert_info_yuv_to_yuv (converter, in_info, out_info); } } if (!is_supported) { goto conversion_not_supported; } if (converter_get_matrix (converter, &matrix, in_info, out_info)) { PixelShaderColorTransform *transform = &converter->convert_info.transform; /* padding the last column for 16bytes alignment */ transform->trans_matrix[0] = matrix.dm[0][0]; transform->trans_matrix[1] = matrix.dm[0][1]; transform->trans_matrix[2] = matrix.dm[0][2]; transform->trans_matrix[3] = 0; transform->trans_matrix[4] = matrix.dm[1][0]; transform->trans_matrix[5] = matrix.dm[1][1]; transform->trans_matrix[6] = matrix.dm[1][2]; transform->trans_matrix[7] = 0; transform->trans_matrix[8] = matrix.dm[2][0]; transform->trans_matrix[9] = matrix.dm[2][1]; transform->trans_matrix[10] = matrix.dm[2][2]; transform->trans_matrix[11] = 0; } converter->viewport.TopLeftX = 0; converter->viewport.TopLeftY = 0; converter->viewport.Width = GST_VIDEO_INFO_WIDTH (out_info); converter->viewport.Height = GST_VIDEO_INFO_HEIGHT (out_info); converter->viewport.MinDepth = 0.0f; converter->viewport.MaxDepth = 1.0f; data.self = converter; data.in_info = in_info; data.out_info = out_info; gst_d3d11_color_convert_setup_shader (device, &data); if (!data.ret || !converter->quad) { GST_ERROR ("Couldn't setup shader"); gst_d3d11_color_converter_free (converter); converter = NULL; } return converter; /* ERRORS */ format_unknown: { GST_ERROR ("%s couldn't be converted to d3d11 format", gst_video_format_to_string (GST_VIDEO_INFO_FORMAT (unknown_info))); return NULL; } conversion_not_supported: { GST_ERROR ("Conversion %s to %s not supported", gst_video_format_to_string (GST_VIDEO_INFO_FORMAT (in_info)), gst_video_format_to_string (GST_VIDEO_INFO_FORMAT (out_info))); gst_d3d11_color_converter_free (converter); return NULL; } } void gst_d3d11_color_converter_free (GstD3D11ColorConverter * converter) { g_return_if_fail (converter != NULL); if (converter->quad) gst_d3d11_quad_free (converter->quad); gst_clear_object (&converter->device); g_free (converter->convert_info.ps_body); g_free (converter); } gboolean gst_d3d11_color_converter_convert (GstD3D11ColorConverter * converter, ID3D11ShaderResourceView * srv[GST_VIDEO_MAX_PLANES], ID3D11RenderTargetView * rtv[GST_VIDEO_MAX_PLANES]) { g_return_val_if_fail (converter != NULL, FALSE); g_return_val_if_fail (srv != NULL, FALSE); g_return_val_if_fail (rtv != NULL, FALSE); return gst_d3d11_draw_quad (converter->quad, &converter->viewport, 1, srv, converter->num_input_view, rtv, converter->num_output_view); } gboolean gst_d3d11_color_converter_update_rect (GstD3D11ColorConverter * converter, RECT * rect) { g_return_val_if_fail (converter != NULL, FALSE); converter->viewport.TopLeftX = rect->left; converter->viewport.TopLeftY = rect->top; converter->viewport.Width = rect->right - rect->left; converter->viewport.Height = rect->bottom - rect->top; return TRUE; }