Mercurial > hg > Gears > GearsAgda
view src/tmp/context.h @ 86:e06e1a9e569e parallel_execution
create worker
| author | Shohei KOKUBO <e105744@ie.u-ryukyu.ac.jp> |
|---|---|
| date | Mon, 18 Jan 2016 17:50:52 +0900 |
| parents | |
| children |
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/* Context definition for llrb example */ #include <pthread.h> #include "stack.h" #define ALLOCATE_SIZE 1000 enum Code { Code1, Code2, Code3, Code4, Code5, Find, Not_find, Code6, Allocator, Put, Replace, Insert, Compare, RotateL, RotateR, SetTree, InsertCase1, InsertCase2, InsertCase3, InsertCase4, InsertCase4_1, InsertCase4_2, InsertCase5, StackClear, Get, Search, Delete, Delete1, Delete2, Delete3, Replace_d1, Replace_d2, FindMax1, FindMax2, DeleteCase1, DeleteCase2, DeleteCase3, DeleteCase4, DeleteCase5, DeleteCase6, CreateWorker, TaskManager, Exit, }; enum Relational { EQ, GT, LT, }; enum UniqueData { Worker, Allocate, Tree, Node, LoopCounter, }; struct Context { enum Code next; int codeNum; __code (**code) (struct Context*); void* heapStart; void* heap; long heapLimit; pthread_t thread; int dataNum; stack_ptr code_stack; stack_ptr node_stack; union Data **data; }; union Data { struct LoopCounter { int i; } loopCounter; struct Worker { //enum DataType type; int num; struct Context* contexts; } worker; struct Array { //enum DataType type; int size; int* array; } array; struct Spots { //enum DataType type; int x; int y; } spot; struct Tree { enum Code next; struct Node* root; struct Node* current; struct Node* deleted; int result; } tree; struct Node { // need to tree enum Code next; int key; // comparable data segment int value; struct Node* left; struct Node* right; // need to balancing enum Color { Red, Black, } color; } node; struct Allocate { enum Code next; long size; } allocate; };