https://github.com/halide/Halide
Tip revision: 52f1ff007b23517bd7c75e7e197acc286c5c8a75 authored by Steven Johnson on 15 January 2019, 00:15:43 UTC
Bounds: add bitwise or,xor,not to the same case as and, >>, <<
Bounds: add bitwise or,xor,not to the same case as and, >>, <<
Tip revision: 52f1ff0
JITModule.h
#ifndef HALIDE_JIT_MODULE_H
#define HALIDE_JIT_MODULE_H
/** \file
* Defines the struct representing lifetime and dependencies of
* a JIT compiled halide pipeline
*/
#include <map>
#include <memory>
#include "IntrusivePtr.h"
#include "Type.h"
#include "runtime/HalideRuntime.h"
namespace llvm {
class Module;
class Type;
}
namespace Halide {
struct ExternCFunction;
struct JITExtern;
struct Target;
class Module;
namespace Internal {
class JITModuleContents;
struct LoweredFunc;
struct JITModule {
IntrusivePtr<JITModuleContents> jit_module;
struct Symbol {
void *address;
llvm::Type *llvm_type;
Symbol() : address(nullptr), llvm_type(nullptr) {}
Symbol(void *address, llvm::Type *llvm_type) : address(address), llvm_type(llvm_type) {}
};
JITModule();
JITModule(const Module &m, const LoweredFunc &fn,
const std::vector<JITModule> &dependencies = std::vector<JITModule>());
/** The exports map of a JITModule contains all symbols which are
* available to other JITModules which depend on this one. For
* runtime modules, this is all of the symbols exported from the
* runtime. For a JITted Func, it generally only contains the main
* result Func of the compilation, which takes its name directly
* from the Func declaration. One can also make a module which
* contains no code itself but is just an exports maps providing
* arbitrary pointers to functions or global variables to JITted
* code. */
const std::map<std::string, Symbol> &exports() const;
/** A pointer to the raw halide function. Its true type depends
* on the Argument vector passed to CodeGen_LLVM::compile. Image
* parameters become (halide_buffer_t *), and scalar parameters become
* pointers to the appropriate values. The final argument is a
* pointer to the halide_buffer_t defining the output. This will be nullptr for
* a JITModule which has not yet been compiled or one that is not
* a Halide Func compilation at all. */
void *main_function() const;
/** Returns the Symbol structure for the routine documented in
* main_function. Returning a Symbol allows access to the LLVM
* type as well as the address. The address and type will be nullptr
* if the module has not been compiled. */
Symbol entrypoint_symbol() const;
/** Returns the Symbol structure for the argv wrapper routine
* corresponding to the entrypoint. The argv wrapper is callable
* via an array of void * pointers to the arguments for the
* call. Returning a Symbol allows access to the LLVM type as well
* as the address. The address and type will be nullptr if the module
* has not been compiled. */
Symbol argv_entrypoint_symbol() const;
/** A slightly more type-safe wrapper around the raw halide
* module. Takes it arguments as an array of pointers that
* correspond to the arguments to \ref main_function . This will
* be nullptr for a JITModule which has not yet been compiled or one
* that is not a Halide Func compilation at all. */
// @{
typedef int (*argv_wrapper)(const void **args);
argv_wrapper argv_function() const;
// @}
/** Add another JITModule to the dependency chain. Dependencies
* are searched to resolve symbols not found in the current
* compilation unit while JITting. */
void add_dependency(JITModule &dep);
/** Registers a single Symbol as available to modules which depend
* on this one. The Symbol structure provides both the address and
* the LLVM type for the function, which allows type safe linkage of
* extenal routines. */
void add_symbol_for_export(const std::string &name, const Symbol &extern_symbol);
/** Registers a single function as available to modules which
* depend on this one. This routine converts the ExternSignature
* info into an LLVM type, which allows type safe linkage of
* external routines. */
void add_extern_for_export(const std::string &name,
const ExternCFunction &extern_c_function);
/** Look up a symbol by name in this module or its dependencies. */
Symbol find_symbol_by_name(const std::string &) const;
/** Take an llvm module and compile it. The requested exports will
be available via the exports method. */
void compile_module(std::unique_ptr<llvm::Module> mod,
const std::string &function_name, const Target &target,
const std::vector<JITModule> &dependencies = std::vector<JITModule>(),
const std::vector<std::string> &requested_exports = std::vector<std::string>());
/** Encapsulate device (GPU) and buffer interactions. */
void memoization_cache_set_size(int64_t size) const;
/** Return true if compile_module has been called on this module. */
bool compiled() const;
};
typedef int (*halide_task)(void *user_context, int, uint8_t *);
struct JITHandlers {
void (*custom_print)(void *, const char *){nullptr};
void *(*custom_malloc)(void *, size_t){nullptr};
void (*custom_free)(void *, void *){nullptr};
int (*custom_do_task)(void *, halide_task, int, uint8_t *){nullptr};
int (*custom_do_par_for)(void *, halide_task, int, int, uint8_t *){nullptr};
void (*custom_error)(void *, const char *){nullptr};
int32_t (*custom_trace)(void *, const halide_trace_event_t *){nullptr};
void *(*custom_get_symbol)(const char *name){nullptr};
void *(*custom_load_library)(const char *name){nullptr};
void *(*custom_get_library_symbol)(void *lib, const char *name){nullptr};
};
struct JITUserContext {
void *user_context;
JITHandlers handlers;
};
class JITSharedRuntime {
public:
// Note only the first llvm::Module passed in here is used. The same shared runtime is used for all JIT.
static std::vector<JITModule> get(llvm::Module *m, const Target &target, bool create = true);
static void init_jit_user_context(JITUserContext &jit_user_context, void *user_context, const JITHandlers &handlers);
static JITHandlers set_default_handlers(const JITHandlers &handlers);
/** Set the maximum number of bytes used by memoization caching.
* If you are compiling statically, you should include HalideRuntime.h
* and call halide_memoization_cache_set_size() instead.
*/
static void memoization_cache_set_size(int64_t size);
static void release_all();
};
} // namespace Internal
} // namespace Halide
#endif