# Copyright (c) 2016, 2017 ARM Limited. # # SPDX-License-Identifier: MIT # # 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. import collections import os.path import re import subprocess VERSION = "v18.03" SONAME_VERSION="10.0.0" Import('env') Import('vars') def build_library(name, sources, static=False, libs=[]): if static: obj = arm_compute_env.StaticLibrary(name, source=sources, LIBS = arm_compute_env["LIBS"] + libs) else: if env['set_soname']: obj = arm_compute_env.SharedLibrary(name, source=sources, SHLIBVERSION = SONAME_VERSION, LIBS = arm_compute_env["LIBS"] + libs) symlinks = [] # Manually delete symlinks or SCons will get confused: directory = os.path.dirname(obj[0].path) library_prefix = obj[0].path[:-(1 + len(SONAME_VERSION))] real_lib = "%s.%s" % (library_prefix, SONAME_VERSION) for f in Glob("#%s*" % library_prefix): if str(f) != real_lib: symlinks.append("%s/%s" % (directory,str(f))) clean = arm_compute_env.Command('clean-%s' % str(obj[0]), [], Delete(symlinks)) Default(clean) Depends(obj, clean) else: obj = arm_compute_env.SharedLibrary(name, source=sources, LIBS = arm_compute_env["LIBS"] + libs) Default(obj) return obj def resolve_includes(target, source, env): # File collection FileEntry = collections.namedtuple('FileEntry', 'target_name file_contents') # Include pattern pattern = re.compile("#include \"(.*)\"") # Get file contents files = [] for i in range(len(source)): src = source[i] dst = target[i] contents = src.get_contents().splitlines() entry = FileEntry(target_name=dst, file_contents=contents) files.append((os.path.basename(src.get_path()),entry)) # Create dictionary of tupled list files_dict = dict(files) # Check for includes (can only be files in the same folder) final_files = [] for file in files: done = False tmp_file = file[1].file_contents while not done: file_count = 0 updated_file = [] for line in tmp_file: found = pattern.search(line) if found: include_file = found.group(1) data = files_dict[include_file].file_contents updated_file.extend(data) else: updated_file.append(line) file_count += 1 # Check if all include are replaced. if file_count == len(tmp_file): done = True # Update temp file tmp_file = updated_file # Append and prepend string literal identifiers and add expanded file to final list tmp_file.insert(0, "R\"(\n") tmp_file.append("\n)\"") entry = FileEntry(target_name=file[1].target_name, file_contents=tmp_file) final_files.append((file[0], entry)) # Write output files for file in final_files: with open(file[1].target_name.get_path(), 'w+') as out_file: out_file.write( "\n".join( file[1].file_contents )) def create_version_file(target, source, env): # Generate string with build options library version to embed in the library: try: git_hash = subprocess.check_output(["git", "rev-parse", "HEAD"]) except (OSError, subprocess.CalledProcessError): git_hash="unknown" version_filename = "%s/arm_compute_version.embed" % Dir("src/core").path build_info = "\"arm_compute_version=%s Build options: %s Git hash=%s\"" % (VERSION, vars.args, git_hash.strip()) with open(target[0].get_path(), "w") as fd: fd.write(build_info) arm_compute_env = env.Clone() # Generate embed files generate_embed = [ arm_compute_env.Command("src/core/arm_compute_version.embed", "", action=create_version_file) ] if env['opencl'] and env['embed_kernels']: cl_files = Glob('src/core/CL/cl_kernels/*.cl') cl_files += Glob('src/core/CL/cl_kernels/*.h') embed_files = [ f.get_path()+"embed" for f in cl_files ] arm_compute_env.Append(CPPPATH =[Dir("./src/core/CL/").path] ) generate_embed.append(arm_compute_env.Command(embed_files, cl_files, action=resolve_includes)) if env['gles_compute'] and env['embed_kernels']: cs_files = Glob('src/core/GLES_COMPUTE/cs_shaders/*.cs') cs_files += Glob('src/core/GLES_COMPUTE/cs_shaders/*.h') embed_files = [ f.get_path()+"embed" for f in cs_files ] arm_compute_env.Append(CPPPATH =[Dir("./src/core/GLES_COMPUTE/").path] ) generate_embed.append(arm_compute_env.Command(embed_files, cs_files, action=resolve_includes)) Default(generate_embed) if env["build"] == "embed_only": Return() # Don't allow undefined references in the libraries: arm_compute_env.Append(LINKFLAGS=['-Wl,--no-undefined']) arm_compute_env.Append(CPPPATH =[Dir("./src/core/").path] ) if env["os"] not in ["android", "bare_metal"]: arm_compute_env.Append(LIBS = ['pthread']) arm_compute_env.Append(LIBS = ['dl']) core_files = Glob('src/core/*.cpp') core_files += Glob('src/core/CPP/*.cpp') core_files += Glob('src/core/CPP/kernels/*.cpp') core_files += Glob('src/core/utils/*/*.cpp') runtime_files = Glob('src/runtime/*.cpp') runtime_files += Glob('src/runtime/CPP/ICPPSimpleFunction.cpp') runtime_files += Glob('src/runtime/CPP/functions/*.cpp') # CLHarrisCorners uses the Scheduler to run CPP kernels runtime_files += Glob('src/runtime/CPP/SingleThreadScheduler.cpp') if env['cppthreads']: runtime_files += Glob('src/runtime/CPP/CPPScheduler.cpp') if env['openmp']: runtime_files += Glob('src/runtime/OMP/OMPScheduler.cpp') if env['opencl']: core_files += Glob('src/core/CL/*.cpp') core_files += Glob('src/core/CL/kernels/*.cpp') runtime_files += Glob('src/runtime/CL/*.cpp') runtime_files += Glob('src/runtime/CL/functions/*.cpp') if env['neon']: core_files += Glob('src/core/NEON/*.cpp') core_files += Glob('src/core/NEON/kernels/*.cpp') # build winograd sources for either v7a / v8a core_files += Glob('src/core/NEON/kernels/convolution/*/*.cpp') core_files += Glob('src/core/NEON/kernels/convolution/winograd/*/*.cpp') arm_compute_env.Append(CPPPATH = ["arm_compute/core/NEON/kernels/winograd/", "arm_compute/core/NEON/kernels/assembly/"]) if env['arch'] == "armv7a": core_files += Glob('src/core/NEON/kernels/arm32/*.cpp') if "arm64-v8" in env['arch']: core_files += Glob('src/core/NEON/kernels/arm64/*.cpp') runtime_files += Glob('src/runtime/NEON/*.cpp') runtime_files += Glob('src/runtime/NEON/functions/*.cpp') if env['gles_compute']: if env['os'] != 'android': arm_compute_env.Append(CPPPATH = ["#opengles-3.1/include", "#opengles-3.1/mali_include"]) core_files += Glob('src/core/GLES_COMPUTE/*.cpp') core_files += Glob('src/core/GLES_COMPUTE/kernels/*.cpp') runtime_files += Glob('src/runtime/GLES_COMPUTE/*.cpp') runtime_files += Glob('src/runtime/GLES_COMPUTE/functions/*.cpp') arm_compute_core_a = build_library('arm_compute_core-static', core_files, static=True) Export('arm_compute_core_a') if env['os'] != 'bare_metal' and not env['standalone']: arm_compute_core_so = build_library('arm_compute_core', core_files, static=False) Export('arm_compute_core_so') arm_compute_a = build_library('arm_compute-static', runtime_files, static=True, libs = [ arm_compute_core_a ]) Export('arm_compute_a') if env['os'] != 'bare_metal' and not env['standalone']: arm_compute_so = build_library('arm_compute', runtime_files, static=False, libs = [ "arm_compute_core" ]) Depends(arm_compute_so, arm_compute_core_so) Export('arm_compute_so') if env['neon'] and env['opencl']: Import('opencl') graph_files = Glob('src/graph/*.cpp') graph_files += Glob('src/graph/nodes/*.cpp') graph_files += Glob('src/graph/operations/*.cpp') graph_files += Glob('src/graph/CL/*.cpp') graph_files += Glob('src/graph/NEON/*.cpp') shared_graph_objects = [arm_compute_env.SharedObject(f) for f in graph_files] static_graph_objects = [arm_compute_env.StaticObject(f) for f in graph_files] arm_compute_graph_a = build_library('arm_compute_graph-static', static_graph_objects, static=True, libs = [ arm_compute_a ]) Export('arm_compute_graph_a') arm_compute_env.Append(LIBPATH = ["#build/%s/opencl-1.2-stubs" % env['build_dir']]) arm_compute_graph_so = build_library('arm_compute_graph', shared_graph_objects, static=False, libs = [ "arm_compute", "arm_compute_core"]) Depends(arm_compute_graph_so, arm_compute_so) Depends(arm_compute_graph_so, opencl) Export('arm_compute_graph_so') graph_alias = arm_compute_env.Alias("arm_compute_graph", [arm_compute_graph_a, arm_compute_graph_so]) Default(graph_alias) if env['standalone']: alias = arm_compute_env.Alias("arm_compute", [arm_compute_a]) else: alias = arm_compute_env.Alias("arm_compute", [arm_compute_a, arm_compute_so]) Default(alias) if env['standalone']: Depends([alias,arm_compute_core_a], generate_embed) else: Depends([alias,arm_compute_core_so, arm_compute_core_a], generate_embed)