gmqcc/ir.h

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/*
* Copyright (C) 2012
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* Wolfgang Bumiller
*
* 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.
*/
#ifndef GMQCC_IR_HDR
#define GMQCC_IR_HDR
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/* ir_value */
typedef struct
{
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/* both inclusive */
size_t start;
size_t end;
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} ir_life_entry_t;
struct ir_function_s;
typedef struct ir_value_s {
char *name;
int vtype;
int store;
lex_ctx context;
/* even the IR knows the subtype of a field */
int fieldtype;
/* and the output type of a function */
int outtype;
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MEM_VECTOR_MAKE(struct ir_instr_s*, reads);
MEM_VECTOR_MAKE(struct ir_instr_s*, writes);
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/* constantvalues */
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bool isconst;
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union {
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float vfloat;
int vint;
vector vvec;
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char *vstring;
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struct ir_value_s *vpointer;
struct ir_function_s *vfunc;
} constval;
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struct {
int32_t globaladdr;
int32_t name;
/* filled by the local-allocator */
int32_t local;
} code;
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/* For the temp allocator */
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MEM_VECTOR_MAKE(ir_life_entry_t, life);
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} ir_value;
/* ir_value can be a variable, or created by an operation */
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ir_value* ir_value_var(const char *name, int st, int vtype);
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/* if a result of an operation: the function should store
* it to remember to delete it / garbage collect it
*/
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ir_value* ir_value_out(struct ir_function_s *owner, const char *name, int st, int vtype);
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void ir_value_delete(ir_value*);
void ir_value_set_name(ir_value*, const char *name);
MEM_VECTOR_PROTO_ALL(ir_value, struct ir_instr_s*, reads);
MEM_VECTOR_PROTO_ALL(ir_value, struct ir_instr_s*, writes);
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bool GMQCC_WARN ir_value_set_float(ir_value*, float f);
#if 0
bool GMQCC_WARN ir_value_set_int(ir_value*, int i);
#endif
bool GMQCC_WARN ir_value_set_string(ir_value*, const char *s);
bool GMQCC_WARN ir_value_set_vector(ir_value*, vector v);
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/*bool ir_value_set_pointer_v(ir_value*, ir_value* p); */
/*bool ir_value_set_pointer_i(ir_value*, int i); */
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MEM_VECTOR_PROTO(ir_value, ir_life_entry_t, life);
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/* merge an instruction into the life-range */
/* returns false if the lifepoint was already known */
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bool ir_value_life_merge(ir_value*, size_t);
bool ir_value_life_merge_into(ir_value*, const ir_value*);
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/* check if a value lives at a specific point */
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bool ir_value_lives(ir_value*, size_t);
/* check if the life-range of 2 values overlaps */
bool ir_values_overlap(const ir_value*, const ir_value*);
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void ir_value_dump(ir_value*, int (*oprintf)(const char*,...));
void ir_value_dump_life(ir_value *self, int (*oprintf)(const char*,...));
/* A vector of IR values */
typedef struct {
MEM_VECTOR_MAKE(ir_value*, v);
} ir_value_vector;
MEM_VECTOR_PROTO(ir_value_vector, ir_value*, v);
/* PHI data */
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typedef struct ir_phi_entry_s
{
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ir_value *value;
struct ir_block_s *from;
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} ir_phi_entry_t;
/* instruction */
typedef struct ir_instr_s
{
int opcode;
lex_ctx context;
ir_value* (_ops[3]);
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struct ir_block_s* (bops[2]);
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MEM_VECTOR_MAKE(ir_phi_entry_t, phi);
MEM_VECTOR_MAKE(ir_value*, params);
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/* For the temp-allocation */
size_t eid;
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struct ir_block_s *owner;
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} ir_instr;
ir_instr* ir_instr_new(struct ir_block_s *owner, int opcode);
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void ir_instr_delete(ir_instr*);
MEM_VECTOR_PROTO(ir_value, ir_phi_entry_t, phi);
bool GMQCC_WARN ir_instr_op(ir_instr*, int op, ir_value *value, bool writing);
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MEM_VECTOR_PROTO(ir_value, ir_value*, params);
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void ir_instr_dump(ir_instr* in, char *ind, int (*oprintf)(const char*,...));
/* block */
typedef struct ir_block_s
{
char *label;
lex_ctx context;
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bool final; /* once a jump is added we're done */
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MEM_VECTOR_MAKE(ir_instr*, instr);
MEM_VECTOR_MAKE(struct ir_block_s*, entries);
MEM_VECTOR_MAKE(struct ir_block_s*, exits);
MEM_VECTOR_MAKE(ir_value*, living);
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/* For the temp-allocation */
size_t eid;
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bool is_return;
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size_t run_id;
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struct ir_function_s *owner;
bool generated;
size_t code_start;
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} ir_block;
ir_block* ir_block_new(struct ir_function_s *owner, const char *label);
void ir_block_delete(ir_block*);
bool ir_block_set_label(ir_block*, const char *label);
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MEM_VECTOR_PROTO(ir_block, ir_instr*, instr);
MEM_VECTOR_PROTO_ALL(ir_block, ir_block*, exits);
MEM_VECTOR_PROTO_ALL(ir_block, ir_block*, entries);
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ir_value* ir_block_create_binop(ir_block*, const char *label, int op,
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ir_value *left, ir_value *right);
bool GMQCC_WARN ir_block_create_store_op(ir_block*, int op, ir_value *target, ir_value *what);
bool GMQCC_WARN ir_block_create_store(ir_block*, ir_value *target, ir_value *what);
bool GMQCC_WARN ir_block_create_storep(ir_block*, ir_value *target, ir_value *what);
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/* field must be of TYPE_FIELD */
ir_value* ir_block_create_load_from_ent(ir_block*, const char *label, ir_value *ent, ir_value *field, int outype);
ir_value* ir_block_create_fieldaddress(ir_block*, const char *label, ir_value *entity, ir_value *field);
/* This is to create an instruction of the form
* <outtype>%label := opcode a, b
*/
ir_value* ir_block_create_general_instr(ir_block *self, const char *label,
int op, ir_value *a, ir_value *b, int outype);
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ir_value* ir_block_create_add(ir_block*, const char *label, ir_value *l, ir_value *r);
ir_value* ir_block_create_sub(ir_block*, const char *label, ir_value *l, ir_value *r);
ir_value* ir_block_create_mul(ir_block*, const char *label, ir_value *l, ir_value *r);
ir_value* ir_block_create_div(ir_block*, const char *label, ir_value *l, ir_value *r);
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ir_instr* ir_block_create_phi(ir_block*, const char *label, int vtype);
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ir_value* ir_phi_value(ir_instr*);
bool GMQCC_WARN ir_phi_add(ir_instr*, ir_block *b, ir_value *v);
ir_instr* ir_block_create_call(ir_block*, const char *label, ir_value *func);
ir_value* ir_call_value(ir_instr*);
bool GMQCC_WARN ir_call_param(ir_instr*, ir_value*);
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bool GMQCC_WARN ir_block_create_return(ir_block*, ir_value *opt_value);
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bool GMQCC_WARN ir_block_create_if(ir_block*, ir_value *cond,
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ir_block *ontrue, ir_block *onfalse);
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/* A 'goto' is an actual 'goto' coded in QC, whereas
* a 'jump' is a virtual construct which simply names the
* next block to go to.
* A goto usually becomes an OP_GOTO in the resulting code,
* whereas a 'jump' usually doesn't add any actual instruction.
*/
bool GMQCC_WARN ir_block_create_jump(ir_block*, ir_block *to);
bool GMQCC_WARN ir_block_create_goto(ir_block*, ir_block *to);
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MEM_VECTOR_PROTO_ALL(ir_block, ir_value*, living);
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void ir_block_dump(ir_block*, char *ind, int (*oprintf)(const char*,...));
/* function */
typedef struct ir_function_s
{
char *name;
int outtype;
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MEM_VECTOR_MAKE(int, params);
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MEM_VECTOR_MAKE(ir_block*, blocks);
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ir_value *value;
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/* values generated from operations
* which might get optimized away, so anything
* in there needs to be deleted in the dtor.
*/
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MEM_VECTOR_MAKE(ir_value*, values);
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/* locally defined variables */
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MEM_VECTOR_MAKE(ir_value*, locals);
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size_t allocated_locals;
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ir_block* first;
ir_block* last;
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lex_ctx context;
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/* for temp allocation */
size_t run_id;
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struct ir_builder_s *owner;
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} ir_function;
ir_function* ir_function_new(struct ir_builder_s *owner, int returntype);
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void ir_function_delete(ir_function*);
bool GMQCC_WARN ir_function_collect_value(ir_function*, ir_value *value);
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bool ir_function_set_name(ir_function*, const char *name);
MEM_VECTOR_PROTO(ir_function, int, params);
MEM_VECTOR_PROTO(ir_function, ir_block*, blocks);
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ir_value* ir_function_get_local(ir_function *self, const char *name);
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ir_value* ir_function_create_local(ir_function *self, const char *name, int vtype);
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bool GMQCC_WARN ir_function_finalize(ir_function*);
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/*
bool ir_function_naive_phi(ir_function*);
bool ir_function_enumerate(ir_function*);
bool ir_function_calculate_liferanges(ir_function*);
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*/
ir_block* ir_function_create_block(ir_function*, const char *label);
void ir_function_dump(ir_function*, char *ind, int (*oprintf)(const char*,...));
/* builder */
typedef struct ir_builder_s
{
char *name;
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MEM_VECTOR_MAKE(ir_function*, functions);
MEM_VECTOR_MAKE(ir_value*, globals);
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} ir_builder;
ir_builder* ir_builder_new(const char *modulename);
void ir_builder_delete(ir_builder*);
bool ir_builder_set_name(ir_builder *self, const char *name);
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MEM_VECTOR_PROTO(ir_builder, ir_function*, functions);
MEM_VECTOR_PROTO(ir_builder, ir_value*, globals);
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ir_function* ir_builder_get_function(ir_builder*, const char *fun);
ir_function* ir_builder_create_function(ir_builder*, const char *name, int outtype);
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ir_value* ir_builder_get_global(ir_builder*, const char *fun);
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ir_value* ir_builder_create_global(ir_builder*, const char *name, int vtype);
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bool ir_builder_generate(ir_builder *self, const char *filename);
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void ir_builder_dump(ir_builder*, int (*oprintf)(const char*, ...));
/* This code assumes 32 bit floats while generating binary */
extern int check_int_and_float_size
[ (sizeof(int32_t) == sizeof(( (ir_value*)(NULL) )->constval.vvec.x)) ? 1 : -1 ];
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#endif