/* * Copyright 2011-2013 Blender Foundation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef __DEVICE_H__ #define __DEVICE_H__ #include #include "device_memory.h" #include "device_task.h" #include "util_list.h" #include "util_stats.h" #include "util_string.h" #include "util_thread.h" #include "util_types.h" #include "util_vector.h" CCL_NAMESPACE_BEGIN class Progress; class RenderTile; /* Device Types */ enum DeviceType { DEVICE_NONE, DEVICE_CPU, DEVICE_OPENCL, DEVICE_CUDA, DEVICE_NETWORK, DEVICE_MULTI }; class DeviceInfo { public: DeviceType type; string description; string id; int num; bool display_device; bool advanced_shading; bool pack_images; bool extended_images; /* flag for GPU and Multi device */ bool use_split_kernel; /* Denotes if the device is going to run cycles using split-kernel */ vector multi_devices; DeviceInfo() { type = DEVICE_CPU; id = "CPU"; num = 0; display_device = false; advanced_shading = true; pack_images = false; extended_images = false; use_split_kernel = false; } }; class DeviceRequestedFeatures { public: /* Use experimental feature set. */ bool experimental; /* Maximum number of closures in shader trees. */ int max_closure; /* Selective nodes compilation. */ /* Identifier of a node group up to which all the nodes needs to be * compiled in. Nodes from higher group indices will be ignores. */ int max_nodes_group; /* Features bitfield indicating which features from the requested group * will be compiled in. Nodes which corresponds to features which are not * in this bitfield will be ignored even if they're in the requested group. */ int nodes_features; /* BVH/sampling kernel features. */ bool use_hair; bool use_object_motion; bool use_camera_motion; /* Denotes whether baking functionality is needed. */ bool use_baking; DeviceRequestedFeatures() { /* TODO(sergey): Find more meaningful defaults. */ experimental = false; max_closure = 0; max_nodes_group = 0; nodes_features = 0; use_hair = false; use_object_motion = false; use_camera_motion = false; use_baking = false; } bool modified(const DeviceRequestedFeatures& requested_features) { return !(experimental == requested_features.experimental && max_closure == requested_features.max_closure && max_nodes_group == requested_features.max_nodes_group && nodes_features == requested_features.nodes_features && use_hair == requested_features.use_hair && use_object_motion == requested_features.use_object_motion && use_camera_motion == requested_features.use_camera_motion && use_baking == requested_features.use_baking); } }; std::ostream& operator <<(std::ostream &os, const DeviceRequestedFeatures& requested_features); /* Device */ struct DeviceDrawParams { function bind_display_space_shader_cb; function unbind_display_space_shader_cb; }; class Device { protected: Device(DeviceInfo& info_, Stats &stats_, bool background) : background(background), vertex_buffer(0), info(info_), stats(stats_) {} bool background; string error_msg; /* used for real time display */ unsigned int vertex_buffer; public: virtual ~Device(); /* info */ DeviceInfo info; virtual const string& error_message() { return error_msg; } bool have_error() { return !error_message().empty(); } /* statistics */ Stats &stats; /* regular memory */ virtual void mem_alloc(device_memory& mem, MemoryType type) = 0; virtual void mem_copy_to(device_memory& mem) = 0; virtual void mem_copy_from(device_memory& mem, int y, int w, int h, int elem) = 0; virtual void mem_zero(device_memory& mem) = 0; virtual void mem_free(device_memory& mem) = 0; /* constant memory */ virtual void const_copy_to(const char *name, void *host, size_t size) = 0; /* texture memory */ virtual void tex_alloc(const char * /*name*/, device_memory& /*mem*/, InterpolationType interpolation = INTERPOLATION_NONE, ExtensionType extension = EXTENSION_REPEAT) { (void)interpolation; /* Ignored. */ (void)extension; /* Ignored. */ }; virtual void tex_free(device_memory& /*mem*/) {}; /* pixel memory */ virtual void pixels_alloc(device_memory& mem); virtual void pixels_copy_from(device_memory& mem, int y, int w, int h); virtual void pixels_free(device_memory& mem); /* open shading language, only for CPU device */ virtual void *osl_memory() { return NULL; } /* load/compile kernels, must be called before adding tasks */ virtual bool load_kernels( const DeviceRequestedFeatures& /*requested_features*/) { return true; } /* tasks */ virtual int get_split_task_count(DeviceTask& task) = 0; virtual void task_add(DeviceTask& task) = 0; virtual void task_wait() = 0; virtual void task_cancel() = 0; /* opengl drawing */ virtual void draw_pixels(device_memory& mem, int y, int w, int h, int dx, int dy, int width, int height, bool transparent, const DeviceDrawParams &draw_params); #ifdef WITH_NETWORK /* networking */ void server_run(); #endif /* multi device */ virtual void map_tile(Device * /*sub_device*/, RenderTile& /*tile*/) {} virtual int device_number(Device * /*sub_device*/) { return 0; } /* static */ static Device *create(DeviceInfo& info, Stats &stats, bool background = true); static DeviceType type_from_string(const char *name); static string string_from_type(DeviceType type); static vector& available_types(); static vector& available_devices(); static string device_capabilities(); }; CCL_NAMESPACE_END #endif /* __DEVICE_H__ */