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[/] [openrisc/] [trunk/] [or1ksim/] [cuc/] [cuc.h] - Rev 82
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/* cuc.h -- OpenRISC Custom Unit Compiler, main header file Copyright (C) 2002 Marko Mlinar, markom@opencores.org Copyright (C) 2008 Embecosm Limited Contributor Jeremy Bennett <jeremy.bennett@embecosm.com> This file is part of Or1ksim, the OpenRISC 1000 Architectural Simulator. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see <http://www.gnu.org/licenses/>. */ /* This program is commented throughout in a fashion suitable for processing with Doxygen. */ #ifndef CUC__H #define CUC__H /* Package includes */ #include "abstract.h" /* Maximum number of instructions per function */ #define MAX_INSNS 0x10000 #define MAX_BB 0x1000 #define MAX_REGS 34 #define FLAG_REG (MAX_REGS - 2) #define LRBB_REG (MAX_REGS - 1) #define CUC_MAX_STACK 0x1000 /* if more, not converted */ #define MAX_PREROLL 32 #define MAX_UNROLL 32 #define IT_BRANCH 0x0001 /* Branch instruction */ #define IT_INDELAY 0x0002 /* Instruction is in delay slot */ #define IT_BBSTART 0x0004 /* BB start marker */ #define IT_BBEND 0x0008 /* BB end marker */ #define IT_OUTPUT 0x0010 /* this instruction holds final value of the register */ #define IT_SIGNED 0x0020 /* Instruction is signed */ #define IT_MEMORY 0x0040 /* Instruction does memory access */ #define IT_UNUSED 0x0080 /* dead instruction marker */ #define IT_FLAG1 0x0100 /* misc flags */ #define IT_FLAG2 0x0200 #define IT_VOLATILE 0x0400 /* Should not be moved/removed */ #define IT_MEMADD 0x0800 /* add before the load -- should not be removed */ #define IT_COND 0x1000 /* Conditional */ #define IT_LATCHED 0x2000 /* Output of this instruction is latched/registered */ #define IT_CUT 0x4000 /* After this instruction register is placed */ #define OPT_NONE 0x00 #define OPT_CONST 0x01 #define OPT_REGISTER 0x02 #define OPT_REF 0x04 #define OPT_JUMP 0x08 /* Jump to an instruction index */ #define OPT_DEST 0x10 /* This operand is dest */ #define OPT_BB 0x20 /* Jumpt to BB */ #define OPT_LRBB 0x40 /* 0 if we came in from left BB, or 1 otherwise */ #define MT_WIDTH 0x007 /* These bits hold memory access width in bytes */ #define MT_BURST 0x008 /* burst start & end markers */ #define MT_BURSTE 0x010 #define MT_CALL 0x020 /* This is a call */ #define MT_LOAD 0x040 /* This memory access does a read */ #define MT_STORE 0x080 /* This memory access does a write */ #define MT_SIGNED 0x100 /* Signed memory access */ #define MO_NONE 0 /* different memory ordering, even if there are dependencies, burst can be made, width can change */ #define MO_WEAK 1 /* different memory ordering, if there cannot be dependencies, burst can be made, width can change */ #define MO_STRONG 2 /* Same memory ordering, burst can be made, width can change */ #define MO_EXACT 3 /* Exacltly the same memory ordering and widths */ #define BB_INLOOP 0x01 /* This block is inside a loop */ #define BB_OPTIONAL 0x02 #define BB_DEAD 0x08 /* This block is unaccessible -> to be removed */ #define BBID_START MAX_BB /* Start BB pointer */ #define BBID_END (MAX_BB + 1) /* End BB pointer */ /* Various macros to minimize code size */ #define REF(bb,i) (((bb) * MAX_INSNS) + (i)) #define REF_BB(r) ((r) / MAX_INSNS) #define REF_I(r) ((r) % MAX_INSNS) #define INSN(ref) bb[REF_BB(ref)].insn[REF_I(ref)] #ifndef MIN # define MIN(x,y) ((x) < (y) ? (x) : (y)) #endif #ifndef MAX # define MAX(x,y) ((x) > (y) ? (x) : (y)) #endif #define log(x...) {fprintf (flog, x); fflush (flog); } #define cucdebug(x,s...) {if ((x) <= cuc_debug) PRINTF (s);} #define CUC_WIDTH_ITERATIONS 256 /* Options */ /* Whether we are debugging cuc (0-9) */ extern int cuc_debug; /* Temporary registers by software convention */ extern const int caller_saved[MAX_REGS]; typedef struct _dep_list_t { unsigned long ref; struct _dep_list_t *next; } dep_list; /* Shared list, if marked dead, entry is not used */ typedef struct _csm_list { int ref; int cnt; int cmovs; double size, osize; int cmatch; int dead; int ninsn; /* Number of associated instructions */ struct _csm_list *from; struct _csm_list *next; } cuc_shared_list; /* Shared resource item definition */ typedef struct { int ref; int cmatch; } cuc_shared_item; /* Implementation specific timings */ typedef struct { int b; /* Basic block # this timing is referring to */ int preroll; /* How many times was this BB pre/unrolled */ int unroll; int nshared; cuc_shared_item *shared; /* List of shared resources */ int new_time; double size; } cuc_timings; /* Instructionn entity */ typedef struct { int type; /* type of the instruction */ int index; /* Instruction index */ int opt[MAX_OPERANDS]; /* operand types */ unsigned long op[MAX_OPERANDS]; /* operand values */ dep_list *dep; /* instruction dependencies */ unsigned long insn; /* Instruction opcode */ char disasm[40]; /* disassembled string */ unsigned long max; /* max result value */ int tmp; } cuc_insn; /* Basic block entity */ typedef struct { unsigned long type; /* Type of the bb */ int first, last; /* Where this block lies */ int prev[2], next[2]; int tmp; cuc_insn *insn; /* Instructions lie here */ int ninsn; /* Number of instructions */ int last_used_reg[MAX_REGS]; dep_list *mdep; /* Last memory access dependencies */ int nmemory; int cnt; /* how many times was this block executed */ int unrolled; /* how many times has been this block unrolled */ int ntim; /* Basic block options */ cuc_timings *tim; int selected_tim; /* Selected option, -1 if none */ } cuc_bb; /* Function entity */ typedef struct _cuc_func { /* Basic blocks */ int num_bb; cuc_bb bb[MAX_BB]; int saved_regs[MAX_REGS]; /* Whether this register was saved */ int lur[MAX_REGS]; /* Location of last use */ int used_regs[MAX_REGS]; /* Nonzero if it was used */ /* Schedule of memory instructions */ int nmsched; int msched[MAX_INSNS]; int mtype[MAX_INSNS]; /* initial bb and their relocations to new block numbers */ int num_init_bb; int *init_bb_reloc; int orig_time; /* time in cyc required for SW implementation */ int num_runs; /* Number times this function was run */ cuc_timings timings; /* Base timings */ unsigned long start_addr; /* Address of first instruction inn function */ unsigned long end_addr; /* Address of last instruction inn function */ int memory_order; /* Memory order */ int nfdeps; /* Function dependencies */ struct _cuc_func **fdeps; int tmp; } cuc_func; /* Instructions from function */ extern cuc_insn insn[MAX_INSNS]; extern int num_insn; extern int reloc[MAX_INSNS]; extern FILE *flog; /* Loads from file into global array insn */ int cuc_load (char *in_fn); /* Negates conditional instruction */ void negate_conditional (cuc_insn * ii); /* Scans sequence of BBs and set bb[].cnt */ void generate_bb_seq (cuc_func * f, char *mp_filename, char *bb_filename); /* Prints out instructions */ void print_insns (int bb, cuc_insn * insn, int size, int verbose); /* prints out bb string */ void print_bb_num (int num); /* Print out basic blocks */ void print_cuc_bb (cuc_func * func, char *s); /* Duplicates function */ cuc_func *dup_func (cuc_func * f); /* Releases memory allocated by function */ void free_func (cuc_func * f); /* Common subexpression matching -- resource sharing, analysis pass */ void csm (cuc_func * f); /* Common subexpression matching -- resource sharing, generation pass */ void csm_gen (cuc_func * f, cuc_func * rf, cuc_shared_item * shared, int nshared); /* Set the BB limits */ void detect_bb (cuc_func * func); /* Optimize basic blocks */ int optimize_bb (cuc_func * func); /* Search and optimize complex cmov assignments */ int optimize_cmovs (cuc_func * func); /* Optimizes dataflow tree */ int optimize_tree (cuc_func * func); /* Remove nop instructions */ int remove_nops (cuc_func * func); /* Removes dead instruction */ int remove_dead (cuc_func * func); /* Removes trivial register assignments */ int remove_trivial_regs (cuc_func * f); /* Determine inputs and outputs */ void set_io (cuc_func * func); /* Removes BBs marked as dead */ int remove_dead_bb (cuc_func * func); /* Common subexpression elimination */ int cse (cuc_func * f); /* Detect register dependencies */ void reg_dep (cuc_func * func); /* Cuts the tree and marks registers */ void mark_cut (cuc_func * f); /* Unroll loop b times times and return new function. Original function is unmodified. */ cuc_func *preunroll_loop (cuc_func * func, int b, int preroll, int unroll, char *bb_filename); /* Clean memory and data dependencies */ void clean_deps (cuc_func * func); /* Schedule memory accesses 0 - exact; 1 - strong; 2 - weak; 3 - none */ int schedule_memory (cuc_func * func, int otype); /* Recalculates bb[].cnt values, based on generated profile file */ void recalc_cnts (cuc_func * f, char *bb_filename); /* Calculate timings */ void analyse_timings (cuc_func * func, cuc_timings * timings); /* Calculates facts, that are determined by conditionals */ void insert_conditional_facts (cuc_func * func); /* Width optimization -- detect maximum values */ void detect_max_values (cuc_func * f); /* Inserts n nops before insn 'ref' */ void insert_insns (cuc_func * f, int ref, int n); /* Checks for some anomalies with references */ void cuc_check (cuc_func * f); /* Adds memory dependencies based on ordering type */ void add_memory_dep (cuc_func * f, int otype); /* Prints out instructions */ void print_cuc_insns (char *s, int verbose); /* Build basic blocks */ void build_bb (cuc_func * f); /* Latch outputs in loops */ void add_latches (cuc_func * f); /* split the BB, based on the group numbers in .tmp */ void expand_bb (cuc_func * f, int b); void add_dep (dep_list ** list, int dep); void dispose_list (dep_list ** list); void main_cuc (char *filename); void add_data_dep (cuc_func * f); void reg_cuc_sec (); #endif /* CUC__H */
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