/* * Mesa 3-D graphics library * * Copyright (C) 1999-2008 Brian Paul All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. */ /** * Functions for allocating/managing framebuffers and renderbuffers. * Also, routines for reading/writing renderbuffer data as ubytes, * ushorts, uints, etc. */ #include #include "glheader.h" #include "imports.h" #include "blend.h" #include "buffers.h" #include "context.h" #include "enums.h" #include "formats.h" #include "macros.h" #include "mtypes.h" #include "fbobject.h" #include "framebuffer.h" #include "renderbuffer.h" #include "texobj.h" #include "glformats.h" #include "state.h" /** * Compute/set the _DepthMax field for the given framebuffer. * This value depends on the Z buffer resolution. */ static void compute_depth_max(struct gl_framebuffer *fb) { if (fb->Visual.depthBits == 0) { /* Special case. Even if we don't have a depth buffer we need * good values for DepthMax for Z vertex transformation purposes * and for per-fragment fog computation. */ fb->_DepthMax = (1 << 16) - 1; } else if (fb->Visual.depthBits < 32) { fb->_DepthMax = (1 << fb->Visual.depthBits) - 1; } else { /* Special case since shift values greater than or equal to the * number of bits in the left hand expression's type are undefined. */ fb->_DepthMax = 0xffffffff; } fb->_DepthMaxF = (GLfloat) fb->_DepthMax; /* Minimum resolvable depth value, for polygon offset */ fb->_MRD = (GLfloat)1.0 / fb->_DepthMaxF; } /** * Create and initialize a gl_framebuffer object. * This is intended for creating _window_system_ framebuffers, not generic * framebuffer objects ala GL_EXT_framebuffer_object. * * \sa _mesa_new_framebuffer */ struct gl_framebuffer * _mesa_create_framebuffer(const struct gl_config *visual) { struct gl_framebuffer *fb = CALLOC_STRUCT(gl_framebuffer); assert(visual); if (fb) { _mesa_initialize_window_framebuffer(fb, visual); } return fb; } /** * Allocate a new gl_framebuffer object. * This is the default function for ctx->Driver.NewFramebuffer(). * This is for allocating user-created framebuffers, not window-system * framebuffers! * \sa _mesa_create_framebuffer */ struct gl_framebuffer * _mesa_new_framebuffer(struct gl_context *ctx, GLuint name) { struct gl_framebuffer *fb; (void) ctx; assert(name != 0); fb = CALLOC_STRUCT(gl_framebuffer); if (fb) { _mesa_initialize_user_framebuffer(fb, name); } return fb; } /** * Initialize a gl_framebuffer object. Typically used to initialize * window system-created framebuffers, not user-created framebuffers. * \sa _mesa_initialize_user_framebuffer */ void _mesa_initialize_window_framebuffer(struct gl_framebuffer *fb, const struct gl_config *visual) { assert(fb); assert(visual); memset(fb, 0, sizeof(struct gl_framebuffer)); simple_mtx_init(&fb->Mutex, mtx_plain); fb->RefCount = 1; /* save the visual */ fb->Visual = *visual; /* Init read/draw renderbuffer state */ if (visual->doubleBufferMode) { fb->_NumColorDrawBuffers = 1; fb->ColorDrawBuffer[0] = GL_BACK; fb->_ColorDrawBufferIndexes[0] = BUFFER_BACK_LEFT; fb->ColorReadBuffer = GL_BACK; fb->_ColorReadBufferIndex = BUFFER_BACK_LEFT; } else { fb->_NumColorDrawBuffers = 1; fb->ColorDrawBuffer[0] = GL_FRONT; fb->_ColorDrawBufferIndexes[0] = BUFFER_FRONT_LEFT; fb->ColorReadBuffer = GL_FRONT; fb->_ColorReadBufferIndex = BUFFER_FRONT_LEFT; } fb->Delete = _mesa_destroy_framebuffer; fb->_Status = GL_FRAMEBUFFER_COMPLETE_EXT; fb->_AllColorBuffersFixedPoint = !visual->floatMode; fb->_HasSNormOrFloatColorBuffer = visual->floatMode; fb->_HasAttachments = true; fb->FlipY = true; fb->SampleLocationTable = NULL; fb->ProgrammableSampleLocations = 0; fb->SampleLocationPixelGrid = 0; compute_depth_max(fb); } /** * Initialize a user-created gl_framebuffer object. * \sa _mesa_initialize_window_framebuffer */ void _mesa_initialize_user_framebuffer(struct gl_framebuffer *fb, GLuint name) { assert(fb); assert(name); memset(fb, 0, sizeof(struct gl_framebuffer)); fb->Name = name; fb->RefCount = 1; fb->_NumColorDrawBuffers = 1; fb->ColorDrawBuffer[0] = GL_COLOR_ATTACHMENT0_EXT; fb->_ColorDrawBufferIndexes[0] = BUFFER_COLOR0; fb->ColorReadBuffer = GL_COLOR_ATTACHMENT0_EXT; fb->_ColorReadBufferIndex = BUFFER_COLOR0; fb->SampleLocationTable = NULL; fb->ProgrammableSampleLocations = 0; fb->SampleLocationPixelGrid = 0; fb->Delete = _mesa_destroy_framebuffer; simple_mtx_init(&fb->Mutex, mtx_plain); } /** * Deallocate buffer and everything attached to it. * Typically called via the gl_framebuffer->Delete() method. */ void _mesa_destroy_framebuffer(struct gl_framebuffer *fb) { if (fb) { _mesa_free_framebuffer_data(fb); free(fb->Label); free(fb); } } /** * Free all the data hanging off the given gl_framebuffer, but don't free * the gl_framebuffer object itself. */ void _mesa_free_framebuffer_data(struct gl_framebuffer *fb) { assert(fb); assert(fb->RefCount == 0); simple_mtx_destroy(&fb->Mutex); for (unsigned i = 0; i < BUFFER_COUNT; i++) { struct gl_renderbuffer_attachment *att = &fb->Attachment[i]; if (att->Renderbuffer) { _mesa_reference_renderbuffer(&att->Renderbuffer, NULL); } if (att->Texture) { _mesa_reference_texobj(&att->Texture, NULL); } assert(!att->Renderbuffer); assert(!att->Texture); att->Type = GL_NONE; } free(fb->SampleLocationTable); fb->SampleLocationTable = NULL; } /** * Set *ptr to point to fb, with refcounting and locking. * This is normally only called from the _mesa_reference_framebuffer() macro * when there's a real pointer change. */ void _mesa_reference_framebuffer_(struct gl_framebuffer **ptr, struct gl_framebuffer *fb) { if (*ptr) { /* unreference old renderbuffer */ GLboolean deleteFlag = GL_FALSE; struct gl_framebuffer *oldFb = *ptr; simple_mtx_lock(&oldFb->Mutex); assert(oldFb->RefCount > 0); oldFb->RefCount--; deleteFlag = (oldFb->RefCount == 0); simple_mtx_unlock(&oldFb->Mutex); if (deleteFlag) oldFb->Delete(oldFb); *ptr = NULL; } if (fb) { simple_mtx_lock(&fb->Mutex); fb->RefCount++; simple_mtx_unlock(&fb->Mutex); *ptr = fb; } } /** * Resize the given framebuffer's renderbuffers to the new width and height. * This should only be used for window-system framebuffers, not * user-created renderbuffers (i.e. made with GL_EXT_framebuffer_object). * This will typically be called directly from a device driver. * * \note it's possible for ctx to be null since a window can be resized * without a currently bound rendering context. */ void _mesa_resize_framebuffer(struct gl_context *ctx, struct gl_framebuffer *fb, GLuint width, GLuint height) { /* XXX I think we could check if the size is not changing * and return early. */ /* Can only resize win-sys framebuffer objects */ assert(_mesa_is_winsys_fbo(fb)); for (unsigned i = 0; i < BUFFER_COUNT; i++) { struct gl_renderbuffer_attachment *att = &fb->Attachment[i]; if (att->Type == GL_RENDERBUFFER_EXT && att->Renderbuffer) { struct gl_renderbuffer *rb = att->Renderbuffer; /* only resize if size is changing */ if (rb->Width != width || rb->Height != height) { if (rb->AllocStorage(ctx, rb, rb->InternalFormat, width, height)) { assert(rb->Width == width); assert(rb->Height == height); } else { _mesa_error(ctx, GL_OUT_OF_MEMORY, "Resizing framebuffer"); /* no return */ } } } } fb->Width = width; fb->Height = height; if (ctx) { /* update scissor / window bounds */ _mesa_update_draw_buffer_bounds(ctx, ctx->DrawBuffer); /* Signal new buffer state so that swrast will update its clipping * info (the CLIP_BIT flag). */ ctx->NewState |= _NEW_BUFFERS; } } /** * Given a bounding box, intersect the bounding box with the scissor of * a specified vieport. * * \param ctx GL context. * \param idx Index of the desired viewport * \param bbox Bounding box for the scissored viewport. Stored as xmin, * xmax, ymin, ymax. */ void _mesa_intersect_scissor_bounding_box(const struct gl_context *ctx, unsigned idx, int *bbox) { if (ctx->Scissor.EnableFlags & (1u << idx)) { if (ctx->Scissor.ScissorArray[idx].X > bbox[0]) { bbox[0] = ctx->Scissor.ScissorArray[idx].X; } if (ctx->Scissor.ScissorArray[idx].Y > bbox[2]) { bbox[2] = ctx->Scissor.ScissorArray[idx].Y; } if (ctx->Scissor.ScissorArray[idx].X + ctx->Scissor.ScissorArray[idx].Width < bbox[1]) { bbox[1] = ctx->Scissor.ScissorArray[idx].X + ctx->Scissor.ScissorArray[idx].Width; } if (ctx->Scissor.ScissorArray[idx].Y + ctx->Scissor.ScissorArray[idx].Height < bbox[3]) { bbox[3] = ctx->Scissor.ScissorArray[idx].Y + ctx->Scissor.ScissorArray[idx].Height; } /* finally, check for empty region */ if (bbox[0] > bbox[1]) { bbox[0] = bbox[1]; } if (bbox[2] > bbox[3]) { bbox[2] = bbox[3]; } } } /** * Calculate the inclusive bounding box for the scissor of a specific viewport * * \param ctx GL context. * \param buffer Framebuffer to be checked against * \param idx Index of the desired viewport * \param bbox Bounding box for the scissored viewport. Stored as xmin, * xmax, ymin, ymax. * * \warning This function assumes that the framebuffer dimensions are up to * date. * * \sa _mesa_clip_to_region */ static void scissor_bounding_box(const struct gl_context *ctx, const struct gl_framebuffer *buffer, unsigned idx, int *bbox) { bbox[0] = 0; bbox[2] = 0; bbox[1] = buffer->Width; bbox[3] = buffer->Height; _mesa_intersect_scissor_bounding_box(ctx, idx, bbox); assert(bbox[0] <= bbox[1]); assert(bbox[2] <= bbox[3]); } /** * Update the context's current drawing buffer's Xmin, Xmax, Ymin, Ymax fields. * These values are computed from the buffer's width and height and * the scissor box, if it's enabled. * \param ctx the GL context. */ void _mesa_update_draw_buffer_bounds(struct gl_context *ctx, struct gl_framebuffer *buffer) { int bbox[4]; if (!buffer) return; /* Default to the first scissor as that's always valid */ scissor_bounding_box(ctx, buffer, 0, bbox); buffer->_Xmin = bbox[0]; buffer->_Ymin = bbox[2]; buffer->_Xmax = bbox[1]; buffer->_Ymax = bbox[3]; } /** * The glGet queries of the framebuffer red/green/blue size, stencil size, * etc. are satisfied by the fields of ctx->DrawBuffer->Visual. These can * change depending on the renderbuffer bindings. This function updates * the given framebuffer's Visual from the current renderbuffer bindings. * * This may apply to user-created framebuffers or window system framebuffers. * * Also note: ctx->DrawBuffer->Visual.depthBits might not equal * ctx->DrawBuffer->Attachment[BUFFER_DEPTH].Renderbuffer.DepthBits. * The former one is used to convert floating point depth values into * integer Z values. */ void _mesa_update_framebuffer_visual(struct gl_context *ctx, struct gl_framebuffer *fb) { memset(&fb->Visual, 0, sizeof(fb->Visual)); /* find first RGB renderbuffer */ for (unsigned i = 0; i < BUFFER_COUNT; i++) { if (fb->Attachment[i].Renderbuffer) { const struct gl_renderbuffer *rb = fb->Attachment[i].Renderbuffer; const GLenum baseFormat = _mesa_get_format_base_format(rb->Format); const mesa_format fmt = rb->Format; /* Grab samples and sampleBuffers from any attachment point (assuming * the framebuffer is complete, we'll get the same answer from all * attachments). */ fb->Visual.samples = rb->NumSamples; fb->Visual.sampleBuffers = rb->NumSamples > 0 ? 1 : 0; if (_mesa_is_legal_color_format(ctx, baseFormat)) { fb->Visual.redBits = _mesa_get_format_bits(fmt, GL_RED_BITS); fb->Visual.greenBits = _mesa_get_format_bits(fmt, GL_GREEN_BITS); fb->Visual.blueBits = _mesa_get_format_bits(fmt, GL_BLUE_BITS); fb->Visual.alphaBits = _mesa_get_format_bits(fmt, GL_ALPHA_BITS); fb->Visual.rgbBits = fb->Visual.redBits + fb->Visual.greenBits + fb->Visual.blueBits; if (_mesa_is_format_srgb(fmt)) fb->Visual.sRGBCapable = ctx->Extensions.EXT_sRGB; break; } } } fb->Visual.floatMode = GL_FALSE; for (unsigned i = 0; i < BUFFER_COUNT; i++) { if (fb->Attachment[i].Renderbuffer) { const struct gl_renderbuffer *rb = fb->Attachment[i].Renderbuffer; const mesa_format fmt = rb->Format; if (_mesa_get_format_datatype(fmt) == GL_FLOAT) { fb->Visual.floatMode = GL_TRUE; break; } } } if (fb->Attachment[BUFFER_DEPTH].Renderbuffer) { const struct gl_renderbuffer *rb = fb->Attachment[BUFFER_DEPTH].Renderbuffer; const mesa_format fmt = rb->Format; fb->Visual.depthBits = _mesa_get_format_bits(fmt, GL_DEPTH_BITS); } if (fb->Attachment[BUFFER_STENCIL].Renderbuffer) { const struct gl_renderbuffer *rb = fb->Attachment[BUFFER_STENCIL].Renderbuffer; const mesa_format fmt = rb->Format; fb->Visual.stencilBits = _mesa_get_format_bits(fmt, GL_STENCIL_BITS); } if (fb->Attachment[BUFFER_ACCUM].Renderbuffer) { const struct gl_renderbuffer *rb = fb->Attachment[BUFFER_ACCUM].Renderbuffer; const mesa_format fmt = rb->Format; fb->Visual.accumRedBits = _mesa_get_format_bits(fmt, GL_RED_BITS); fb->Visual.accumGreenBits = _mesa_get_format_bits(fmt, GL_GREEN_BITS); fb->Visual.accumBlueBits = _mesa_get_format_bits(fmt, GL_BLUE_BITS); fb->Visual.accumAlphaBits = _mesa_get_format_bits(fmt, GL_ALPHA_BITS); } compute_depth_max(fb); _mesa_update_allow_draw_out_of_order(ctx); } /* * Example DrawBuffers scenarios: * * 1. glDrawBuffer(GL_FRONT_AND_BACK), fixed-func or shader writes to * "gl_FragColor" or program writes to the "result.color" register: * * fragment color output renderbuffer * --------------------- --------------- * color[0] Front, Back * * * 2. glDrawBuffers(3, [GL_FRONT, GL_AUX0, GL_AUX1]), shader writes to * gl_FragData[i] or program writes to result.color[i] registers: * * fragment color output renderbuffer * --------------------- --------------- * color[0] Front * color[1] Aux0 * color[3] Aux1 * * * 3. glDrawBuffers(3, [GL_FRONT, GL_AUX0, GL_AUX1]) and shader writes to * gl_FragColor, or fixed function: * * fragment color output renderbuffer * --------------------- --------------- * color[0] Front, Aux0, Aux1 * * * In either case, the list of renderbuffers is stored in the * framebuffer->_ColorDrawBuffers[] array and * framebuffer->_NumColorDrawBuffers indicates the number of buffers. * The renderer (like swrast) has to look at the current fragment shader * to see if it writes to gl_FragColor vs. gl_FragData[i] to determine * how to map color outputs to renderbuffers. * * Note that these two calls are equivalent (for fixed function fragment * shading anyway): * a) glDrawBuffer(GL_FRONT_AND_BACK); (assuming non-stereo framebuffer) * b) glDrawBuffers(2, [GL_FRONT_LEFT, GL_BACK_LEFT]); */ /** * Update the (derived) list of color drawing renderbuffer pointers. * Later, when we're rendering we'll loop from 0 to _NumColorDrawBuffers * writing colors. */ static void update_color_draw_buffers(struct gl_framebuffer *fb) { GLuint output; /* set 0th buffer to NULL now in case _NumColorDrawBuffers is zero */ fb->_ColorDrawBuffers[0] = NULL; for (output = 0; output < fb->_NumColorDrawBuffers; output++) { gl_buffer_index buf = fb->_ColorDrawBufferIndexes[output]; if (buf != BUFFER_NONE) { fb->_ColorDrawBuffers[output] = fb->Attachment[buf].Renderbuffer; } else { fb->_ColorDrawBuffers[output] = NULL; } } } /** * Update the (derived) color read renderbuffer pointer. * Unlike the DrawBuffer, we can only read from one (or zero) color buffers. */ static void update_color_read_buffer(struct gl_framebuffer *fb) { if (fb->_ColorReadBufferIndex == BUFFER_NONE || fb->DeletePending || fb->Width == 0 || fb->Height == 0) { fb->_ColorReadBuffer = NULL; /* legal! */ } else { assert(fb->_ColorReadBufferIndex >= 0); assert(fb->_ColorReadBufferIndex < BUFFER_COUNT); fb->_ColorReadBuffer = fb->Attachment[fb->_ColorReadBufferIndex].Renderbuffer; } } /** * Update a gl_framebuffer's derived state. * * Specifically, update these framebuffer fields: * _ColorDrawBuffers * _NumColorDrawBuffers * _ColorReadBuffer * * If the framebuffer is user-created, make sure it's complete. * * The following functions (at least) can effect framebuffer state: * glReadBuffer, glDrawBuffer, glDrawBuffersARB, glFramebufferRenderbufferEXT, * glRenderbufferStorageEXT. */ static void update_framebuffer(struct gl_context *ctx, struct gl_framebuffer *fb) { if (_mesa_is_winsys_fbo(fb)) { /* This is a window-system framebuffer */ /* Need to update the FB's GL_DRAW_BUFFER state to match the * context state (GL_READ_BUFFER too). */ if (fb->ColorDrawBuffer[0] != ctx->Color.DrawBuffer[0]) { _mesa_drawbuffers(ctx, fb, ctx->Const.MaxDrawBuffers, ctx->Color.DrawBuffer, NULL); } /* Call device driver function if fb is the bound draw buffer. */ if (fb == ctx->DrawBuffer) { if (ctx->Driver.DrawBufferAllocate) ctx->Driver.DrawBufferAllocate(ctx); } } else { /* This is a user-created framebuffer. * Completeness only matters for user-created framebuffers. */ if (fb->_Status != GL_FRAMEBUFFER_COMPLETE) { _mesa_test_framebuffer_completeness(ctx, fb); } } /* Strictly speaking, we don't need to update the draw-state * if this FB is bound as ctx->ReadBuffer (and conversely, the * read-state if this FB is bound as ctx->DrawBuffer), but no * harm. */ update_color_draw_buffers(fb); update_color_read_buffer(fb); compute_depth_max(fb); } /** * Update state related to the draw/read framebuffers. */ void _mesa_update_framebuffer(struct gl_context *ctx, struct gl_framebuffer *readFb, struct gl_framebuffer *drawFb) { assert(ctx); update_framebuffer(ctx, drawFb); if (readFb != drawFb) update_framebuffer(ctx, readFb); _mesa_update_clamp_vertex_color(ctx, drawFb); _mesa_update_clamp_fragment_color(ctx, drawFb); } /** * Check if the renderbuffer for a read/draw operation exists. * \param format a basic image format such as GL_RGB, GL_RGBA, GL_ALPHA, * GL_DEPTH_COMPONENT, etc. or GL_COLOR, GL_DEPTH, GL_STENCIL. * \param reading if TRUE, we're going to read from the buffer, if FALSE, we're going to write to the buffer. * \return GL_TRUE if buffer exists, GL_FALSE otherwise */ static GLboolean renderbuffer_exists(struct gl_context *ctx, struct gl_framebuffer *fb, GLenum format, GLboolean reading) { const struct gl_renderbuffer_attachment *att = fb->Attachment; /* If we don't know the framebuffer status, update it now */ if (fb->_Status == 0) { _mesa_test_framebuffer_completeness(ctx, fb); } if (fb->_Status != GL_FRAMEBUFFER_COMPLETE_EXT) { return GL_FALSE; } switch (format) { case GL_COLOR: case GL_RED: case GL_GREEN: case GL_BLUE: case GL_ALPHA: case GL_LUMINANCE: case GL_LUMINANCE_ALPHA: case GL_INTENSITY: case GL_RG: case GL_RGB: case GL_BGR: case GL_RGBA: case GL_BGRA: case GL_ABGR_EXT: case GL_RED_INTEGER_EXT: case GL_RG_INTEGER: case GL_GREEN_INTEGER_EXT: case GL_BLUE_INTEGER_EXT: case GL_ALPHA_INTEGER_EXT: case GL_RGB_INTEGER_EXT: case GL_RGBA_INTEGER_EXT: case GL_BGR_INTEGER_EXT: case GL_BGRA_INTEGER_EXT: case GL_LUMINANCE_INTEGER_EXT: case GL_LUMINANCE_ALPHA_INTEGER_EXT: if (reading) { /* about to read from a color buffer */ const struct gl_renderbuffer *readBuf = fb->_ColorReadBuffer; if (!readBuf) { return GL_FALSE; } assert(_mesa_get_format_bits(readBuf->Format, GL_RED_BITS) > 0 || _mesa_get_format_bits(readBuf->Format, GL_ALPHA_BITS) > 0 || _mesa_get_format_bits(readBuf->Format, GL_TEXTURE_LUMINANCE_SIZE) > 0 || _mesa_get_format_bits(readBuf->Format, GL_TEXTURE_INTENSITY_SIZE) > 0 || _mesa_get_format_bits(readBuf->Format, GL_INDEX_BITS) > 0); } else { /* about to draw to zero or more color buffers (none is OK) */ return GL_TRUE; } break; case GL_DEPTH: case GL_DEPTH_COMPONENT: if (att[BUFFER_DEPTH].Type == GL_NONE) { return GL_FALSE; } break; case GL_STENCIL: case GL_STENCIL_INDEX: if (att[BUFFER_STENCIL].Type == GL_NONE) { return GL_FALSE; } break; case GL_DEPTH_STENCIL_EXT: if (att[BUFFER_DEPTH].Type == GL_NONE || att[BUFFER_STENCIL].Type == GL_NONE) { return GL_FALSE; } break; default: _mesa_problem(ctx, "Unexpected format 0x%x in renderbuffer_exists", format); return GL_FALSE; } /* OK */ return GL_TRUE; } /** * Check if the renderbuffer for a read operation (glReadPixels, glCopyPixels, * glCopyTex[Sub]Image, etc) exists. * \param format a basic image format such as GL_RGB, GL_RGBA, GL_ALPHA, * GL_DEPTH_COMPONENT, etc. or GL_COLOR, GL_DEPTH, GL_STENCIL. * \return GL_TRUE if buffer exists, GL_FALSE otherwise */ GLboolean _mesa_source_buffer_exists(struct gl_context *ctx, GLenum format) { return renderbuffer_exists(ctx, ctx->ReadBuffer, format, GL_TRUE); } /** * As above, but for drawing operations. */ GLboolean _mesa_dest_buffer_exists(struct gl_context *ctx, GLenum format) { return renderbuffer_exists(ctx, ctx->DrawBuffer, format, GL_FALSE); } /** * Used to answer the GL_IMPLEMENTATION_COLOR_READ_FORMAT_OES queries (using * GetIntegerv, GetFramebufferParameteriv, etc) * * If @fb is NULL, the method returns the value for the current bound * framebuffer. */ GLenum _mesa_get_color_read_format(struct gl_context *ctx, struct gl_framebuffer *fb, const char *caller) { if (ctx->NewState) _mesa_update_state(ctx); if (fb == NULL) fb = ctx->ReadBuffer; if (!fb || !fb->_ColorReadBuffer) { /* * From OpenGL 4.5 spec, section 18.2.2 "ReadPixels": * * "An INVALID_OPERATION error is generated by GetIntegerv if pname * is IMPLEMENTATION_COLOR_READ_FORMAT or IMPLEMENTATION_COLOR_- * READ_TYPE and any of: * * the read framebuffer is not framebuffer complete. * * the read framebuffer is a framebuffer object, and the selected * read buffer (see section 18.2.1) has no image attached. * * the selected read buffer is NONE." * * There is not equivalent quote for GetFramebufferParameteriv or * GetNamedFramebufferParameteriv, but from section 9.2.3 "Framebuffer * Object Queries": * * "Values of framebuffer-dependent state are identical to those that * would be obtained were the framebuffer object bound and queried * using the simple state queries in that table." * * Where "using the simple state queries" refer to use GetIntegerv. So * we will assume that on that situation the same error should be * triggered too. */ _mesa_error(ctx, GL_INVALID_OPERATION, "%s(GL_IMPLEMENTATION_COLOR_READ_FORMAT: no GL_READ_BUFFER)", caller); return GL_NONE; } else { const mesa_format format = fb->_ColorReadBuffer->Format; switch (format) { case MESA_FORMAT_RGBA_UINT8: return GL_RGBA_INTEGER; case MESA_FORMAT_B8G8R8A8_UNORM: return GL_BGRA; case MESA_FORMAT_B5G6R5_UNORM: case MESA_FORMAT_R11G11B10_FLOAT: return GL_RGB; case MESA_FORMAT_RG_FLOAT32: case MESA_FORMAT_RG_FLOAT16: case MESA_FORMAT_RG_UNORM8: return GL_RG; case MESA_FORMAT_RG_SINT32: case MESA_FORMAT_RG_UINT32: case MESA_FORMAT_RG_SINT16: case MESA_FORMAT_RG_UINT16: case MESA_FORMAT_RG_SINT8: case MESA_FORMAT_RG_UINT8: return GL_RG_INTEGER; case MESA_FORMAT_R_FLOAT32: case MESA_FORMAT_R_FLOAT16: case MESA_FORMAT_R_UNORM16: case MESA_FORMAT_R_UNORM8: case MESA_FORMAT_R_SNORM16: case MESA_FORMAT_R_SNORM8: return GL_RED; case MESA_FORMAT_R_SINT32: case MESA_FORMAT_R_UINT32: case MESA_FORMAT_R_SINT16: case MESA_FORMAT_R_UINT16: case MESA_FORMAT_R_SINT8: case MESA_FORMAT_R_UINT8: return GL_RED_INTEGER; default: break; } if (_mesa_is_format_integer(format)) return GL_RGBA_INTEGER; else return GL_RGBA; } } /** * Used to answer the GL_IMPLEMENTATION_COLOR_READ_TYPE_OES queries (using * GetIntegerv, GetFramebufferParameteriv, etc) * * If @fb is NULL, the method returns the value for the current bound * framebuffer. */ GLenum _mesa_get_color_read_type(struct gl_context *ctx, struct gl_framebuffer *fb, const char *caller) { if (ctx->NewState) _mesa_update_state(ctx); if (fb == NULL) fb = ctx->ReadBuffer; if (!fb || !fb->_ColorReadBuffer) { /* * See comment on _mesa_get_color_read_format */ _mesa_error(ctx, GL_INVALID_OPERATION, "%s(GL_IMPLEMENTATION_COLOR_READ_TYPE: no GL_READ_BUFFER)", caller); return GL_NONE; } else { const mesa_format format = fb->_ColorReadBuffer->Format; GLenum data_type; GLuint comps; _mesa_uncompressed_format_to_type_and_comps(format, &data_type, &comps); return data_type; } } /** * Returns the read renderbuffer for the specified format. */ struct gl_renderbuffer * _mesa_get_read_renderbuffer_for_format(const struct gl_context *ctx, GLenum format) { const struct gl_framebuffer *rfb = ctx->ReadBuffer; if (_mesa_is_color_format(format)) { return rfb->Attachment[rfb->_ColorReadBufferIndex].Renderbuffer; } else if (_mesa_is_depth_format(format) || _mesa_is_depthstencil_format(format)) { return rfb->Attachment[BUFFER_DEPTH].Renderbuffer; } else { return rfb->Attachment[BUFFER_STENCIL].Renderbuffer; } } /** * Print framebuffer info to stderr, for debugging. */ void _mesa_print_framebuffer(const struct gl_framebuffer *fb) { fprintf(stderr, "Mesa Framebuffer %u at %p\n", fb->Name, (void *) fb); fprintf(stderr, " Size: %u x %u Status: %s\n", fb->Width, fb->Height, _mesa_enum_to_string(fb->_Status)); fprintf(stderr, " Attachments:\n"); for (unsigned i = 0; i < BUFFER_COUNT; i++) { const struct gl_renderbuffer_attachment *att = &fb->Attachment[i]; if (att->Type == GL_TEXTURE) { const struct gl_texture_image *texImage = att->Renderbuffer->TexImage; fprintf(stderr, " %2d: Texture %u, level %u, face %u, slice %u, complete %d\n", i, att->Texture->Name, att->TextureLevel, att->CubeMapFace, att->Zoffset, att->Complete); fprintf(stderr, " Size: %u x %u x %u Format %s\n", texImage->Width, texImage->Height, texImage->Depth, _mesa_get_format_name(texImage->TexFormat)); } else if (att->Type == GL_RENDERBUFFER) { fprintf(stderr, " %2d: Renderbuffer %u, complete %d\n", i, att->Renderbuffer->Name, att->Complete); fprintf(stderr, " Size: %u x %u Format %s\n", att->Renderbuffer->Width, att->Renderbuffer->Height, _mesa_get_format_name(att->Renderbuffer->Format)); } else { fprintf(stderr, " %2d: none\n", i); } } } bool _mesa_is_front_buffer_reading(const struct gl_framebuffer *fb) { if (!fb || _mesa_is_user_fbo(fb)) return false; return fb->_ColorReadBufferIndex == BUFFER_FRONT_LEFT; } bool _mesa_is_front_buffer_drawing(const struct gl_framebuffer *fb) { if (!fb || _mesa_is_user_fbo(fb)) return false; return (fb->_NumColorDrawBuffers >= 1 && fb->_ColorDrawBufferIndexes[0] == BUFFER_FRONT_LEFT); } static inline GLuint _mesa_geometric_nonvalidated_samples(const struct gl_framebuffer *buffer) { return buffer->_HasAttachments ? buffer->Visual.samples : buffer->DefaultGeometry.NumSamples; } bool _mesa_is_multisample_enabled(const struct gl_context *ctx) { /* The sample count may not be validated by the driver, but when it is set, * we know that is in a valid range and no driver should ever validate a * multisampled framebuffer to non-multisampled and vice-versa. */ return ctx->Multisample.Enabled && ctx->DrawBuffer && _mesa_geometric_nonvalidated_samples(ctx->DrawBuffer) >= 1; } /** * Is alpha testing enabled and applicable to the currently bound * framebuffer? */ bool _mesa_is_alpha_test_enabled(const struct gl_context *ctx) { bool buffer0_is_integer = ctx->DrawBuffer->_IntegerBuffers & 0x1; return (ctx->Color.AlphaEnabled && !buffer0_is_integer); } /** * Is alpha to coverage enabled and applicable to the currently bound * framebuffer? */ bool _mesa_is_alpha_to_coverage_enabled(const struct gl_context *ctx) { bool buffer0_is_integer = ctx->DrawBuffer->_IntegerBuffers & 0x1; return (ctx->Multisample.SampleAlphaToCoverage && _mesa_is_multisample_enabled(ctx) && !buffer0_is_integer); }