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/*
* Copyright (c) 2009 by Tor M. Aamodt, Wilson W. L. Fung, Ali Bakhoda,
* George L. Yuan and the University of British Columbia
* Vancouver, BC V6T 1Z4
* All Rights Reserved.
*
* THIS IS A LEGAL DOCUMENT BY DOWNLOADING GPGPU-SIM, YOU ARE AGREEING TO THESE
* TERMS AND CONDITIONS.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNERS OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
* NOTE: The files libcuda/cuda_runtime_api.c and src/cuda-sim/cuda-math.h
* are derived from the CUDA Toolset available from http://www.nvidia.com/cuda
* (property of NVIDIA). The files benchmarks/BlackScholes/ and
* benchmarks/template/ are derived from the CUDA SDK available from
* http://www.nvidia.com/cuda (also property of NVIDIA). The files from
* src/intersim/ are derived from Booksim (a simulator provided with the
* textbook "Principles and Practices of Interconnection Networks" available
* from http://cva.stanford.edu/books/ppin/). As such, those files are bound by
* the corresponding legal terms and conditions set forth separately (original
* copyright notices are left in files from these sources and where we have
* modified a file our copyright notice appears before the original copyright
* notice).
*
* Using this version of GPGPU-Sim requires a complete installation of CUDA
* which is distributed seperately by NVIDIA under separate terms and
* conditions. To use this version of GPGPU-Sim with OpenCL requires a
* recent version of NVIDIA's drivers which support OpenCL.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* 3. Neither the name of the University of British Columbia nor the names of
* its contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* 4. This version of GPGPU-SIM is distributed freely for non-commercial use only.
*
* 5. No nonprofit user may place any restrictions on the use of this software,
* including as modified by the user, by any other authorized user.
*
* 6. GPGPU-SIM was developed primarily by Tor M. Aamodt, Wilson W. L. Fung,
* Ali Bakhoda, George L. Yuan, at the University of British Columbia,
* Vancouver, BC V6T 1Z4
*/
#include "ptx_parser.h"
#include "ptx_ir.h"
#include <stdarg.h>
extern "C" int ptx_error( const char *s );
extern int ptx_lineno;
static bool g_debug_ir_generation=false;
const char *g_filename;
unsigned g_max_regs_per_thread = 0;
// the program intermediate representation...
symbol_table *g_global_symbol_table = NULL;
std::map<std::string,symbol_table*> g_sym_name_to_symbol_table;
static symbol_table *g_current_symbol_table = NULL;
static std::list<ptx_instruction*> g_instructions;
static symbol *g_last_symbol = NULL;
int g_error_detected = 0;
// type specifier stuff:
memory_space_t g_space_spec = undefined_space;
int g_scalar_type_spec = -1;
int g_vector_spec = -1;
int g_alignment_spec = -1;
int g_extern_spec = 0;
// variable declaration stuff:
type_info *g_var_type = NULL;
// instruction definition stuff:
const symbol *g_pred;
int g_neg_pred;
symbol *g_label;
int g_opcode = -1;
std::list<operand_info> g_operands;
std::list<int> g_options;
std::list<int> g_scalar_type;
#define DPRINTF(...) \
if( g_debug_ir_generation ) { \
printf(" %s:%u => ",g_filename,ptx_lineno); \
printf(" (%s:%u) ", __FILE__, __LINE__); \
printf(__VA_ARGS__); \
printf("\n"); \
fflush(stdout); \
}
unsigned g_entry_func_param_index=0;
function_info *g_func_info = NULL;
function_info *g_entrypoint_func_info = NULL;
symbol_table *g_entrypoint_symbol_table = NULL;
std::map<unsigned,std::string> g_ptx_token_decode;
operand_info g_return_var;
const char *decode_token( int type )
{
return g_ptx_token_decode[type].c_str();
}
void read_parser_environment_variables()
{
g_filename = getenv("PTX_SIM_KERNELFILE");
char *dbg_level = getenv("PTX_SIM_DEBUG");
if ( dbg_level && strlen(dbg_level) ) {
int debug_execution=0;
sscanf(dbg_level,"%d", &debug_execution);
if ( debug_execution >= 30 )
g_debug_ir_generation=true;
}
}
void init_parser( const char *ptx_filename )
{
g_filename = strdup(ptx_filename);
g_global_symbol_table = g_current_symbol_table = new symbol_table("global",0,NULL);
ptx_lineno = 1;
#define DEF(X,Y) g_ptx_token_decode[X] = Y;
#include "ptx_parser_decode.def"
#undef DEF
}
void init_directive_state()
{
DPRINTF("init_directive_state");
g_space_spec=undefined_space;
g_scalar_type_spec=-1;
g_vector_spec=-1;
g_opcode=-1;
g_alignment_spec = -1;
g_extern_spec = 0;
g_scalar_type.clear();
g_operands.clear();
g_last_symbol = NULL;
}
void init_instruction_state()
{
DPRINTF("init_instruction_state");
g_pred = NULL;
g_neg_pred = 0;
g_label = NULL;
g_opcode = -1;
g_options.clear();
g_return_var = operand_info();
init_directive_state();
}
static int g_entry_point;
void start_function( int entry_point )
{
DPRINTF("start_function");
init_directive_state();
init_instruction_state();
g_entry_point = entry_point;
g_func_info = NULL;
g_entry_func_param_index=0;
}
char *g_add_identifier_cached__identifier = NULL;
int g_add_identifier_cached__array_dim;
int g_add_identifier_cached__array_ident;
void add_function_name( const char *name )
{
DPRINTF("add_function_name %s %s", name, ((g_entry_point==1)?"(entrypoint)":((g_entry_point==2)?"(extern)":"")));
bool prior_decl = g_global_symbol_table->add_function_decl( name, g_entry_point, &g_func_info, &g_current_symbol_table );
if( g_entry_point ) {
g_entrypoint_func_info = g_func_info;
g_entrypoint_symbol_table = g_current_symbol_table;
}
if( g_add_identifier_cached__identifier ) {
add_identifier( g_add_identifier_cached__identifier,
g_add_identifier_cached__array_dim,
g_add_identifier_cached__array_ident );
free( g_add_identifier_cached__identifier );
g_add_identifier_cached__identifier = NULL;
g_func_info->add_return_var( g_last_symbol );
init_directive_state();
}
if( prior_decl ) {
g_func_info->remove_args();
}
g_global_symbol_table->add_function( g_func_info, g_filename, ptx_lineno );
}
void add_directive()
{
DPRINTF("add_directive");
init_directive_state();
}
#define mymax(a,b) ((a)>(b)?(a):(b))
void end_function()
{
DPRINTF("end_function");
init_directive_state();
init_instruction_state();
g_max_regs_per_thread = mymax( g_max_regs_per_thread, (g_current_symbol_table->next_reg_num()-1));
g_func_info->add_inst( g_instructions );
g_instructions.clear();
gpgpu_ptx_assemble( g_func_info->get_name(), g_func_info );
g_current_symbol_table = g_global_symbol_table;
DPRINTF("function %s, PC = %d\n", g_func_info->get_name().c_str(), g_func_info->get_start_PC());
}
#define parse_error(msg, ...) parse_error_impl(__FILE__,__LINE__, msg, ##__VA_ARGS__)
#define parse_assert(cond,msg, ...) parse_assert_impl((cond),__FILE__,__LINE__, msg, ##__VA_ARGS__)
void parse_error_impl( const char *file, unsigned line, const char *msg, ... )
{
va_list ap;
char buf[1024];
va_start(ap,msg);
vsnprintf(buf,1024,msg,ap);
va_end(ap);
g_error_detected = 1;
printf("%s:%u: Parse error: %s (%s:%u)\n\n", g_filename, ptx_lineno, buf, file, line);
ptx_error(NULL);
abort();
exit(1);
}
void parse_assert_impl( int test_value, const char *file, unsigned line, const char *msg, ... )
{
va_list ap;
char buf[1024];
va_start(ap,msg);
vsnprintf(buf,1024,msg,ap);
va_end(ap);
if ( test_value == 0 )
parse_error_impl(file,line, msg);
}
extern "C" char linebuf[1024];
void set_return()
{
parse_assert( (g_opcode == CALL_OP), "only call can have return value");
g_operands.front().set_return();
g_return_var = g_operands.front();
}
std::map<std::string,std::map<unsigned,const ptx_instruction*> > g_inst_lookup;
const ptx_instruction *ptx_instruction_lookup( const char *filename, unsigned linenumber )
{
std::map<std::string,std::map<unsigned,const ptx_instruction*> >::iterator f=g_inst_lookup.find(filename);
if( f == g_inst_lookup.end() )
return NULL;
std::map<unsigned,const ptx_instruction*>::iterator l=f->second.find(linenumber);
if( l == f->second.end() )
return NULL;
return l->second;
}
void add_instruction()
{
DPRINTF("add_instruction: %s", ((g_opcode>0)?g_opcode_string[g_opcode]:"<label>") );
ptx_instruction *i = new ptx_instruction( g_opcode,
g_pred,
g_neg_pred,
g_label,
g_operands,
g_return_var,
g_options,
g_scalar_type,
g_space_spec,
g_filename,
ptx_lineno,
linebuf );
g_instructions.push_back(i);
g_inst_lookup[g_filename][ptx_lineno] = i;
init_instruction_state();
}
void add_variables()
{
DPRINTF("add_variables");
if ( !g_operands.empty() ) {
assert( g_last_symbol != NULL );
g_last_symbol->add_initializer(g_operands);
}
init_directive_state();
}
void set_variable_type()
{
DPRINTF("set_variable_type space_spec=%s scalar_type_spec=%s",
g_ptx_token_decode[g_space_spec.get_type()].c_str(),
g_ptx_token_decode[g_scalar_type_spec].c_str() );
parse_assert( g_space_spec != undefined_space, "variable has no space specification" );
parse_assert( g_scalar_type_spec != -1, "variable has no type information" ); // need to extend for structs?
g_var_type = g_current_symbol_table->add_type( g_space_spec,
g_scalar_type_spec,
g_vector_spec,
g_alignment_spec,
g_extern_spec );
}
bool check_for_duplicates( const char *identifier )
{
const symbol *s = g_current_symbol_table->lookup(identifier);
return ( s != NULL );
}
extern std::set<std::string> g_globals;
extern std::set<std::string> g_constants;
int g_func_decl = 0;
int g_ident_add_uid = 0;
unsigned g_const_alloc = 1;
void add_identifier( const char *identifier, int array_dim, unsigned array_ident )
{
if( g_func_decl && (g_func_info == NULL) ) {
// return variable decl...
assert( g_add_identifier_cached__identifier == NULL );
g_add_identifier_cached__identifier = strdup(identifier);
g_add_identifier_cached__array_dim = array_dim;
g_add_identifier_cached__array_ident = array_ident;
return;
}
DPRINTF("add_identifier \"%s\" (%u)", identifier, g_ident_add_uid);
g_ident_add_uid++;
type_info *type = g_var_type;
type_info_key ti = type->get_key();
int basic_type;
int regnum;
size_t num_bits;
unsigned addr, addr_pad;
ti.type_decode(num_bits,basic_type);
bool duplicates = check_for_duplicates( identifier );
if( duplicates ) {
symbol *s = g_current_symbol_table->lookup(identifier);
g_last_symbol = s;
if( g_func_decl )
return;
std::string msg = std::string(identifier) + " was delcared previous at " + s->decl_location() + " skipping new declaration";
printf("GPGPU-Sim PTX: Warning %s\n", msg.c_str());
return;
}
assert( g_var_type != NULL );
switch ( array_ident ) {
case ARRAY_IDENTIFIER:
type = g_current_symbol_table->get_array_type(type,array_dim);
num_bits = array_dim * num_bits;
break;
case ARRAY_IDENTIFIER_NO_DIM:
type = g_current_symbol_table->get_array_type(type,(unsigned)-1);
num_bits = 0;
break;
default:
break;
}
g_last_symbol = g_current_symbol_table->add_variable(identifier,type,num_bits/8,g_filename,ptx_lineno);
switch ( ti.get_memory_space().get_type() ) {
case reg_space: {
regnum = g_current_symbol_table->next_reg_num();
int arch_regnum = -1;
for (int d = 0; d < strlen(identifier); d++) {
if (isdigit(identifier[d])) {
sscanf(identifier + d, "%d", &arch_regnum);
break;
}
}
if (strcmp(identifier, "%sp") == 0) {
arch_regnum = 0;
}
g_last_symbol->set_regno(regnum, arch_regnum);
} break;
case shared_space:
printf("GPGPU-Sim PTX: allocating shared region for \"%s\" from 0x%x to 0x%lx (shared memory space)\n",
identifier,
g_current_symbol_table->get_shared_next(),
g_current_symbol_table->get_shared_next() + num_bits/8 );
fflush(stdout);
assert( (num_bits%8) == 0 );
addr = g_current_symbol_table->get_shared_next();
addr_pad = num_bits ? (((num_bits/8) - (addr % (num_bits/8))) % (num_bits/8)) : 0;
g_last_symbol->set_address( addr+addr_pad );
g_current_symbol_table->alloc_shared( num_bits/8 + addr_pad );
break;
case const_space:
if( array_ident == ARRAY_IDENTIFIER_NO_DIM ) {
printf("GPGPU-Sim PTX: deferring allocation of constant region for \"%s\" (need size information)\n", identifier );
} else {
printf("GPGPU-Sim PTX: allocating constant region for \"%s\" from 0x%x to 0x%lx (global memory space) %u\n",
identifier,
g_current_symbol_table->get_global_next(),
g_current_symbol_table->get_global_next() + num_bits/8,
g_const_alloc++ );
fflush(stdout);
assert( (num_bits%8) == 0 );
addr = g_current_symbol_table->get_global_next();
addr_pad = num_bits ? (((num_bits/8) - (addr % (num_bits/8))) % (num_bits/8)) : 0;
g_last_symbol->set_address( addr + addr_pad );
g_current_symbol_table->alloc_global( num_bits/8 + addr_pad );
}
if( g_current_symbol_table == g_global_symbol_table ) {
g_constants.insert( identifier );
}
assert( g_current_symbol_table != NULL );
g_sym_name_to_symbol_table[ identifier ] = g_current_symbol_table;
break;
case global_space:
printf("GPGPU-Sim PTX: allocating global region for \"%s\" from 0x%x to 0x%lx (global memory space)\n",
identifier,
g_current_symbol_table->get_global_next(),
g_current_symbol_table->get_global_next() + num_bits/8 );
fflush(stdout);
assert( (num_bits%8) == 0 );
addr = g_current_symbol_table->get_global_next();
addr_pad = num_bits ? (((num_bits/8) - (addr % (num_bits/8))) % (num_bits/8)) : 0;
g_last_symbol->set_address( addr+addr_pad );
g_current_symbol_table->alloc_global( num_bits/8 + addr_pad );
g_globals.insert( identifier );
assert( g_current_symbol_table != NULL );
g_sym_name_to_symbol_table[ identifier ] = g_current_symbol_table;
break;
case local_space:
if( g_func_info == NULL ) {
printf("GPGPU-Sim PTX: not allocating .local \"%s\" declared at global scope\n", identifier);
break;
}
printf("GPGPU-Sim PTX: allocating stack frame region for .local \"%s\" from 0x%x to 0x%lx\n",
identifier,
g_current_symbol_table->get_local_next(),
g_current_symbol_table->get_local_next() + num_bits/8 );
fflush(stdout);
assert( (num_bits%8) == 0 );
g_last_symbol->set_address( g_current_symbol_table->get_local_next() );
g_current_symbol_table->alloc_local( num_bits/8 );
g_func_info->set_framesize( g_current_symbol_table->get_local_next() );
break;
case tex_space:
printf("GPGPU-Sim PTX: encountered texture directive %s.\n", identifier);
break;
case param_space_local:
printf("GPGPU-Sim PTX: allocating stack frame region for .param \"%s\" from 0x%x to 0x%lx\n",
identifier,
g_current_symbol_table->get_local_next(),
g_current_symbol_table->get_local_next() + num_bits/8 );
fflush(stdout);
assert( (num_bits%8) == 0 );
g_last_symbol->set_address( g_current_symbol_table->get_local_next() );
g_current_symbol_table->alloc_local( num_bits/8 );
g_func_info->set_framesize( g_current_symbol_table->get_local_next() );
break;
case param_space_kernel:
break;
default:
abort();
break;
}
assert( !ti.is_param_unclassified() );
if ( ti.is_param_kernel() ) {
g_func_info->add_param_name_type_size(g_entry_func_param_index,identifier, ti.scalar_type(), num_bits );
g_entry_func_param_index++;
}
}
void add_function_arg()
{
if( g_func_info ) {
DPRINTF("add_function_arg \"%s\"", g_last_symbol->name().c_str() );
g_func_info->add_arg(g_last_symbol);
}
}
void add_extern_spec()
{
DPRINTF("add_extern_spec");
g_extern_spec = 1;
}
void add_alignment_spec( int spec )
{
DPRINTF("add_alignment_spec");
parse_assert( g_alignment_spec == -1, "multiple .align specifiers per variable declaration not allowed." );
g_alignment_spec = spec;
}
void add_space_spec( enum _memory_space_t spec, int value )
{
DPRINTF("add_space_spec \"%s\"", g_ptx_token_decode[spec].c_str() );
parse_assert( g_space_spec == undefined_space, "multiple space specifiers not allowed." );
if( spec == param_space_unclassified ) {
if( g_func_decl ) {
if( g_entry_point == 1)
g_space_spec = param_space_kernel;
else
g_space_spec = param_space_local;
} else
g_space_spec = param_space_unclassified;
} else {
g_space_spec = spec;
if( g_space_spec == const_space )
g_space_spec.set_bank((unsigned)value);
}
}
void add_vector_spec(int spec )
{
DPRINTF("add_vector_spec");
parse_assert( g_vector_spec == -1, "multiple vector specifiers not allowed." );
g_vector_spec = spec;
}
void add_scalar_type_spec( int type_spec )
{
DPRINTF("add_scalar_type_spec \"%s\"", g_ptx_token_decode[type_spec].c_str());
g_scalar_type.push_back( type_spec );
if ( g_scalar_type.size() > 1 ) {
parse_assert( (g_opcode == -1) || (g_opcode == CVT_OP) || (g_opcode == SET_OP) || (g_opcode == SLCT_OP)
|| (g_opcode == TEX_OP),
"only cvt, set, slct, and tex can have more than one type specifier.");
}
g_scalar_type_spec = type_spec;
}
void add_label( const char *identifier )
{
DPRINTF("add_label");
symbol *s = g_current_symbol_table->lookup(identifier);
if ( s != NULL ) {
g_label = s;
} else {
g_label = g_current_symbol_table->add_variable(identifier,NULL,0,g_filename,ptx_lineno);
}
}
void add_opcode( int opcode )
{
g_opcode = opcode;
}
void add_pred( const char *identifier, int neg )
{
DPRINTF("add_pred");
const symbol *s = g_current_symbol_table->lookup(identifier);
if ( s == NULL ) {
std::string msg = std::string("predicate \"") + identifier + "\" has no declaration.";
parse_error( msg.c_str() );
}
g_pred = s;
g_neg_pred = neg;
}
void add_option( int option )
{
DPRINTF("add_option");
g_options.push_back( option );
}
void add_2vector_operand( const char *d1, const char *d2 )
{
DPRINTF("add_2vector_operand");
const symbol *s1 = g_current_symbol_table->lookup(d1);
const symbol *s2 = g_current_symbol_table->lookup(d2);
parse_assert( s1 != NULL && s2 != NULL, "v2 component(s) missing declarations.");
g_operands.push_back( operand_info(s1,s2,NULL,NULL) );
}
void add_3vector_operand( const char *d1, const char *d2, const char *d3 )
{
DPRINTF("add_3vector_operand");
const symbol *s1 = g_current_symbol_table->lookup(d1);
const symbol *s2 = g_current_symbol_table->lookup(d2);
const symbol *s3 = g_current_symbol_table->lookup(d3);
parse_assert( s1 != NULL && s2 != NULL && s3 != NULL, "v3 component(s) missing declarations.");
g_operands.push_back( operand_info(s1,s2,s3,NULL) );
}
void add_4vector_operand( const char *d1, const char *d2, const char *d3, const char *d4 )
{
DPRINTF("add_4vector_operand");
const symbol *s1 = g_current_symbol_table->lookup(d1);
const symbol *s2 = g_current_symbol_table->lookup(d2);
const symbol *s3 = g_current_symbol_table->lookup(d3);
const symbol *s4 = g_current_symbol_table->lookup(d4);
parse_assert( s1 != NULL && s2 != NULL && s3 != NULL && s4 != NULL, "v4 component(s) missing declarations.");
g_operands.push_back( operand_info(s1,s2,s3,s4) );
}
void add_builtin_operand( int builtin, int dim_modifier )
{
DPRINTF("add_builtin_operand");
g_operands.push_back( operand_info(builtin,dim_modifier) );
}
void add_memory_operand()
{
DPRINTF("add_memory_operand");
assert( !g_operands.empty() );
g_operands.back().make_memory_operand();
}
void add_literal_int( int value )
{
DPRINTF("add_literal_int");
g_operands.push_back( operand_info(value) );
}
void add_literal_float( float value )
{
DPRINTF("add_literal_float");
g_operands.push_back( operand_info(value) );
}
void add_literal_double( double value )
{
DPRINTF("add_literal_double");
g_operands.push_back( operand_info(value) );
}
void add_scalar_operand( const char *identifier )
{
DPRINTF("add_scalar_operand");
const symbol *s = g_current_symbol_table->lookup(identifier);
if ( s == NULL ) {
if ( g_opcode == BRA_OP ) {
// forward branch target...
s = g_current_symbol_table->add_variable(identifier,NULL,0,g_filename,ptx_lineno);
} else {
std::string msg = std::string("operand \"") + identifier + "\" has no declaration.";
parse_error( msg.c_str() );
}
}
g_operands.push_back( operand_info(s) );
}
void add_neg_pred_operand( const char *identifier )
{
DPRINTF("add_neg_pred_operand");
const symbol *s = g_current_symbol_table->lookup(identifier);
if ( s == NULL ) {
s = g_current_symbol_table->add_variable(identifier,NULL,1,g_filename,ptx_lineno);
}
operand_info op(s);
op.set_neg_pred();
g_operands.push_back( op );
}
void add_address_operand( const char *identifier, int offset )
{
DPRINTF("add_address_operand");
const symbol *s = g_current_symbol_table->lookup(identifier);
if ( s == NULL ) {
std::string msg = std::string("operand \"") + identifier + "\" has no declaration.";
parse_error( msg.c_str() );
}
g_operands.push_back( operand_info(s,offset) );
}
void add_array_initializer()
{
g_last_symbol->add_initializer(g_operands);
}
void add_version_info( float ver )
{
g_global_symbol_table->set_ptx_version(ver,0);
}
void add_file( unsigned num, const char *filename )
{
if( g_filename == NULL ) {
char *b = strdup(filename);
char *l=b;
char *n=b;
while( *n != '\0' ) {
if( *n == '/' )
l = n+1;
n++;
}
char *p = strtok(l,".");
char buf[1024];
snprintf(buf,1024,"%s.ptx",p);
char *q = strtok(NULL,".");
if( q && !strcmp(q,"cu") ) {
g_filename = strdup(buf);
}
free( b );
}
g_current_symbol_table = g_global_symbol_table;
}
void *reset_symtab()
{
void *result = g_current_symbol_table;
g_current_symbol_table = g_global_symbol_table;
return result;
}
void set_symtab(void*symtab)
{
g_current_symbol_table = (symbol_table*)symtab;
}
void add_pragma( const char *str )
{
printf("GPGPU-Sim PTX: Warning -- ignoring pragma '%s'\n", str );
}
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