Python/instruction_sequence.c - platform/external/python/cpython3 - Git at Google

 /*
  * This file implements a data structure representing a sequence of
  * instructions, which is used by different parts of the compilation
  * pipeline.
  */


 #include <stdbool.h>

 #include "Python.h"

 #include "pycore_compile.h" // _PyCompile_EnsureArrayLargeEnough
 #include "pycore_opcode_utils.h"
 #include "pycore_opcode_metadata.h" // OPCODE_HAS_ARG, etc

 typedef _PyInstruction instruction;
 typedef _PyInstructionSequence instr_sequence;
 typedef _Py_SourceLocation location;

 #define INITIAL_INSTR_SEQUENCE_SIZE 100
 #define INITIAL_INSTR_SEQUENCE_LABELS_MAP_SIZE 10

 #undef SUCCESS
 #undef ERROR
 #define SUCCESS 0
 #define ERROR -1

 #define RETURN_IF_ERROR(X)  \
     if ((X) == -1) {        \
         return ERROR;       \
     }

 static int
 instr_sequence_next_inst(instr_sequence *seq) {
     assert(seq->s_instrs != NULL || seq->s_used == 0);

     RETURN_IF_ERROR(
         _PyCompile_EnsureArrayLargeEnough(seq->s_used + 1,
                                           (void**)&seq->s_instrs,
                                           &seq->s_allocated,
                                           INITIAL_INSTR_SEQUENCE_SIZE,
                                           sizeof(instruction)));
     assert(seq->s_allocated >= 0);
     assert(seq->s_used < seq->s_allocated);
     return seq->s_used++;
 }

 _PyJumpTargetLabel
 _PyInstructionSequence_NewLabel(instr_sequence *seq)
 {
     _PyJumpTargetLabel lbl = {++seq->s_next_free_label};
     return lbl;
 }

 int
 _PyInstructionSequence_UseLabel(instr_sequence *seq, int lbl)
 {
     int old_size = seq->s_labelmap_size;
     RETURN_IF_ERROR(
         _PyCompile_EnsureArrayLargeEnough(lbl,
                                           (void**)&seq->s_labelmap,
                                            &seq->s_labelmap_size,
                                            INITIAL_INSTR_SEQUENCE_LABELS_MAP_SIZE,
                                            sizeof(int)));

     for(int i = old_size; i < seq->s_labelmap_size; i++) {
         seq->s_labelmap[i] = -111;  /* something weird, for debugging */
     }
     seq->s_labelmap[lbl] = seq->s_used; /* label refers to the next instruction */
     return SUCCESS;
 }

 int
 _PyInstructionSequence_ApplyLabelMap(instr_sequence *instrs)
 {
     if (instrs->s_labelmap == NULL) {
         /* Already applied - nothing to do */
         return SUCCESS;
     }
     /* Replace labels by offsets in the code */
     for (int i=0; i < instrs->s_used; i++) {
         instruction *instr = &instrs->s_instrs[i];
         if (HAS_TARGET(instr->i_opcode)) {
             assert(instr->i_oparg < instrs->s_labelmap_size);
             instr->i_oparg = instrs->s_labelmap[instr->i_oparg];
         }
         _PyExceptHandlerInfo *hi = &instr->i_except_handler_info;
         if (hi->h_label >= 0) {
             assert(hi->h_label < instrs->s_labelmap_size);
             hi->h_label = instrs->s_labelmap[hi->h_label];
         }
     }
     /* Clear label map so it's never used again */
     PyMem_Free(instrs->s_labelmap);
     instrs->s_labelmap = NULL;
     instrs->s_labelmap_size = 0;
     return SUCCESS;
 }

 #define MAX_OPCODE 511

 int
 _PyInstructionSequence_Addop(instr_sequence *seq, int opcode, int oparg,
                              location loc)
 {
     assert(0 <= opcode && opcode <= MAX_OPCODE);
     assert(IS_WITHIN_OPCODE_RANGE(opcode));
     assert(OPCODE_HAS_ARG(opcode) || HAS_TARGET(opcode) || oparg == 0);
     assert(0 <= oparg && oparg < (1 << 30));

     int idx = instr_sequence_next_inst(seq);
     RETURN_IF_ERROR(idx);
     instruction *ci = &seq->s_instrs[idx];
     ci->i_opcode = opcode;
     ci->i_oparg = oparg;
     ci->i_loc = loc;
     return SUCCESS;
 }

 int
 _PyInstructionSequence_InsertInstruction(instr_sequence *seq, int pos,
                                          int opcode, int oparg, location loc)
 {
     assert(pos >= 0 && pos <= seq->s_used);
     int last_idx = instr_sequence_next_inst(seq);
     RETURN_IF_ERROR(last_idx);
     for (int i=last_idx-1; i >= pos; i--) {
         seq->s_instrs[i+1] = seq->s_instrs[i];
     }
     instruction *ci = &seq->s_instrs[pos];
     ci->i_opcode = opcode;
     ci->i_oparg = oparg;
     ci->i_loc = loc;

     /* fix the labels map */
     for(int lbl=0; lbl < seq->s_labelmap_size; lbl++) {
         if (seq->s_labelmap[lbl] >= pos) {
             seq->s_labelmap[lbl]++;
         }
     }
     return SUCCESS;
 }

 void
 PyInstructionSequence_Fini(instr_sequence *seq) {
     PyMem_Free(seq->s_labelmap);
     seq->s_labelmap = NULL;

     PyMem_Free(seq->s_instrs);
     seq->s_instrs = NULL;
 }
	/*
	* This file implements a data structure representing a sequence of
	* instructions, which is used by different parts of the compilation
	* pipeline.
	*/


	#include <stdbool.h>

	#include "Python.h"

	#include "pycore_compile.h" // _PyCompile_EnsureArrayLargeEnough
	#include "pycore_opcode_utils.h"
	#include "pycore_opcode_metadata.h" // OPCODE_HAS_ARG, etc

	typedef _PyInstruction instruction;
	typedef _PyInstructionSequence instr_sequence;
	typedef _Py_SourceLocation location;

	#define INITIAL_INSTR_SEQUENCE_SIZE 100
	#define INITIAL_INSTR_SEQUENCE_LABELS_MAP_SIZE 10

	#undef SUCCESS
	#undef ERROR
	#define SUCCESS 0
	#define ERROR -1

	#define RETURN_IF_ERROR(X) \
	if ((X) == -1) { \
	return ERROR; \
	}

	static int
	instr_sequence_next_inst(instr_sequence *seq) {
	assert(seq->s_instrs != NULL \|\| seq->s_used == 0);

	RETURN_IF_ERROR(
	_PyCompile_EnsureArrayLargeEnough(seq->s_used + 1,
	(void**)&seq->s_instrs,
	&seq->s_allocated,
	INITIAL_INSTR_SEQUENCE_SIZE,
	sizeof(instruction)));
	assert(seq->s_allocated >= 0);
	assert(seq->s_used < seq->s_allocated);
	return seq->s_used++;
	}

	_PyJumpTargetLabel
	_PyInstructionSequence_NewLabel(instr_sequence *seq)
	{
	_PyJumpTargetLabel lbl = {++seq->s_next_free_label};
	return lbl;
	}

	int
	_PyInstructionSequence_UseLabel(instr_sequence *seq, int lbl)
	{
	int old_size = seq->s_labelmap_size;
	RETURN_IF_ERROR(
	_PyCompile_EnsureArrayLargeEnough(lbl,
	(void**)&seq->s_labelmap,
	&seq->s_labelmap_size,
	INITIAL_INSTR_SEQUENCE_LABELS_MAP_SIZE,
	sizeof(int)));

	for(int i = old_size; i < seq->s_labelmap_size; i++) {
	seq->s_labelmap[i] = -111; /* something weird, for debugging */
	}
	seq->s_labelmap[lbl] = seq->s_used; /* label refers to the next instruction */
	return SUCCESS;
	}

	int
	_PyInstructionSequence_ApplyLabelMap(instr_sequence *instrs)
	{
	if (instrs->s_labelmap == NULL) {
	/* Already applied - nothing to do */
	return SUCCESS;
	}
	/* Replace labels by offsets in the code */
	for (int i=0; i < instrs->s_used; i++) {
	instruction *instr = &instrs->s_instrs[i];
	if (HAS_TARGET(instr->i_opcode)) {
	assert(instr->i_oparg < instrs->s_labelmap_size);
	instr->i_oparg = instrs->s_labelmap[instr->i_oparg];
	}
	_PyExceptHandlerInfo *hi = &instr->i_except_handler_info;
	if (hi->h_label >= 0) {
	assert(hi->h_label < instrs->s_labelmap_size);
	hi->h_label = instrs->s_labelmap[hi->h_label];
	}
	}
	/* Clear label map so it's never used again */
	PyMem_Free(instrs->s_labelmap);
	instrs->s_labelmap = NULL;
	instrs->s_labelmap_size = 0;
	return SUCCESS;
	}

	#define MAX_OPCODE 511

	int
	_PyInstructionSequence_Addop(instr_sequence *seq, int opcode, int oparg,
	location loc)
	{
	assert(0 <= opcode && opcode <= MAX_OPCODE);
	assert(IS_WITHIN_OPCODE_RANGE(opcode));
	assert(OPCODE_HAS_ARG(opcode) \|\| HAS_TARGET(opcode) \|\| oparg == 0);
	assert(0 <= oparg && oparg < (1 << 30));

	int idx = instr_sequence_next_inst(seq);
	RETURN_IF_ERROR(idx);
	instruction *ci = &seq->s_instrs[idx];
	ci->i_opcode = opcode;
	ci->i_oparg = oparg;
	ci->i_loc = loc;
	return SUCCESS;
	}

	int
	_PyInstructionSequence_InsertInstruction(instr_sequence *seq, int pos,
	int opcode, int oparg, location loc)
	{
	assert(pos >= 0 && pos <= seq->s_used);
	int last_idx = instr_sequence_next_inst(seq);
	RETURN_IF_ERROR(last_idx);
	for (int i=last_idx-1; i >= pos; i--) {
	seq->s_instrs[i+1] = seq->s_instrs[i];
	}
	instruction *ci = &seq->s_instrs[pos];
	ci->i_opcode = opcode;
	ci->i_oparg = oparg;
	ci->i_loc = loc;

	/* fix the labels map */
	for(int lbl=0; lbl < seq->s_labelmap_size; lbl++) {
	if (seq->s_labelmap[lbl] >= pos) {
	seq->s_labelmap[lbl]++;
	}
	}
	return SUCCESS;
	}

	void
	PyInstructionSequence_Fini(instr_sequence *seq) {
	PyMem_Free(seq->s_labelmap);
	seq->s_labelmap = NULL;

	PyMem_Free(seq->s_instrs);
	seq->s_instrs = NULL;
	}