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/* |
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* Copyright (c) 2014 - 2019 Christian Schoenebeck |
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* |
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* http://www.linuxsampler.org |
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* |
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* This file is part of LinuxSampler and released under the same terms. |
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* See README file for details. |
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*/ |
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|
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#include "ScriptVM.h" |
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|
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#include <string.h> |
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#include <assert.h> |
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#include "../common/global_private.h" |
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#include "tree.h" |
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#include "CoreVMFunctions.h" |
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#include "CoreVMDynVars.h" |
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#include "editor/NkspScanner.h" |
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|
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#define DEBUG_SCRIPTVM_CORE 0 |
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|
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/** |
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* Maximum amount of VM instructions to be executed per ScriptVM::exec() call |
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* in case loops are involved, before the script got automatically suspended |
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* for a certain amount of time to avoid any RT instability issues. |
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* |
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* The following value takes a max. execution time of 300 microseconds as aimed |
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* target, assuming an execution time of approximately 5 microseconds per |
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* instruction this leads to the very approximate value set below. |
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*/ |
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#define SCRIPTVM_MAX_INSTR_PER_CYCLE_SOFT 70 |
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|
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/** |
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* Absolute maximum amount of VM instructions to be executed per |
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* ScriptVM::exec() call (even if no loops are involved), before the script got |
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* automatically suspended for a certain amount of time to avoid any RT |
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* instability issues. |
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* |
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* A distinction between "soft" and "hard" limit is done here ATM because a |
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* script author typically expects that his script might be interrupted |
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* automatically if he is using while() loops, however he might not be |
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* prepared that his script might also be interrupted if no loop is involved |
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* (i.e. on very large scripts). |
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* |
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* The following value takes a max. execution time of 1000 microseconds as |
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* aimed target, assuming an execution time of approximately 5 microseconds per |
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* instruction this leads to the very approximate value set below. |
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*/ |
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#define SCRIPTVM_MAX_INSTR_PER_CYCLE_HARD 210 |
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|
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/** |
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* In case either SCRIPTVM_MAX_INSTR_PER_CYCLE_SOFT or |
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* SCRIPTVM_MAX_INSTR_PER_CYCLE_HARD was exceeded when calling |
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* ScriptVM::exec() : the amount of microseconds the respective script |
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* execution instance should be automatically suspended by the VM. |
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*/ |
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#define SCRIPT_VM_FORCE_SUSPENSION_MICROSECONDS 1000 |
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|
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int InstrScript_parse(LinuxSampler::ParserContext*); |
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|
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namespace LinuxSampler { |
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|
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#if DEBUG_SCRIPTVM_CORE |
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static void _printIndents(int n) { |
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for (int i = 0; i < n; ++i) printf(" "); |
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fflush(stdout); |
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} |
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#endif |
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|
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static vmint _requiredMaxStackSizeFor(Statement* statement, vmint depth = 0) { |
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if (!statement) return 1; |
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|
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switch (statement->statementType()) { |
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case STMT_LEAF: |
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#if DEBUG_SCRIPTVM_CORE |
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_printIndents(depth); |
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printf("-> STMT_LEAF\n"); |
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#endif |
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return 1; |
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|
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case STMT_LIST: { |
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#if DEBUG_SCRIPTVM_CORE |
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_printIndents(depth); |
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printf("-> STMT_LIST\n"); |
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#endif |
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Statements* stmts = (Statements*) statement; |
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vmint max = 0; |
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for (int i = 0; stmts->statement(i); ++i) { |
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vmint size = _requiredMaxStackSizeFor( stmts->statement(i), depth+1 ); |
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if (max < size) max = size; |
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} |
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return max + 1; |
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} |
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|
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case STMT_BRANCH: { |
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#if DEBUG_SCRIPTVM_CORE |
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_printIndents(depth); |
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printf("-> STMT_BRANCH\n"); |
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#endif |
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BranchStatement* branchStmt = (BranchStatement*) statement; |
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vmint max = 0; |
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for (int i = 0; branchStmt->branch(i); ++i) { |
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vmint size = _requiredMaxStackSizeFor( branchStmt->branch(i), depth+1 ); |
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if (max < size) max = size; |
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} |
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return max + 1; |
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} |
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|
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case STMT_LOOP: { |
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#if DEBUG_SCRIPTVM_CORE |
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_printIndents(depth); |
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printf("-> STMT_LOOP\n"); |
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#endif |
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While* whileStmt = (While*) statement; |
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if (whileStmt->statements()) |
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return _requiredMaxStackSizeFor( whileStmt->statements() ) + 1; |
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else |
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return 1; |
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} |
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|
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case STMT_SYNC: { |
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#if DEBUG_SCRIPTVM_CORE |
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_printIndents(depth); |
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printf("-> STMT_SYNC\n"); |
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#endif |
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SyncBlock* syncStmt = (SyncBlock*) statement; |
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if (syncStmt->statements()) |
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return _requiredMaxStackSizeFor( syncStmt->statements() ) + 1; |
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else |
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return 1; |
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} |
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|
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case STMT_NOOP: |
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break; // no operation like the name suggests |
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} |
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|
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return 1; // actually just to avoid compiler warning |
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} |
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|
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static vmint _requiredMaxStackSizeFor(EventHandlers* handlers) { |
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vmint max = 1; |
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for (int i = 0; i < handlers->size(); ++i) { |
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vmint size = _requiredMaxStackSizeFor(handlers->eventHandler(i)); |
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if (max < size) max = size; |
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} |
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return max; |
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} |
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|
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ScriptVM::ScriptVM() : |
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m_eventHandler(NULL), m_parserContext(NULL), m_autoSuspend(true), |
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m_acceptExitRes(false) |
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{ |
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m_fnMessage = new CoreVMFunction_message; |
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m_fnExit = new CoreVMFunction_exit(this); |
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m_fnWait = new CoreVMFunction_wait(this); |
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m_fnAbs = new CoreVMFunction_abs; |
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m_fnRandom = new CoreVMFunction_random; |
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m_fnNumElements = new CoreVMFunction_num_elements; |
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m_fnInc = new CoreVMFunction_inc; |
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m_fnDec = new CoreVMFunction_dec; |
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m_fnInRange = new CoreVMFunction_in_range; |
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m_varRealTimer = new CoreVMDynVar_NKSP_REAL_TIMER; |
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m_varPerfTimer = new CoreVMDynVar_NKSP_PERF_TIMER; |
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m_fnShLeft = new CoreVMFunction_sh_left; |
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m_fnShRight = new CoreVMFunction_sh_right; |
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m_fnMin = new CoreVMFunction_min; |
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m_fnMax = new CoreVMFunction_max; |
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m_fnArrayEqual = new CoreVMFunction_array_equal; |
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m_fnSearch = new CoreVMFunction_search; |
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m_fnSort = new CoreVMFunction_sort; |
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m_fnIntToReal = new CoreVMFunction_int_to_real; |
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m_fnRealToInt = new CoreVMFunction_real_to_int; |
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} |
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|
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ScriptVM::~ScriptVM() { |
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delete m_fnMessage; |
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delete m_fnExit; |
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delete m_fnWait; |
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delete m_fnAbs; |
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delete m_fnRandom; |
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delete m_fnNumElements; |
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delete m_fnInc; |
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delete m_fnDec; |
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delete m_fnInRange; |
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delete m_fnShLeft; |
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delete m_fnShRight; |
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delete m_fnMin; |
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delete m_fnMax; |
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delete m_fnArrayEqual; |
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delete m_fnSearch; |
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delete m_fnSort; |
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delete m_fnIntToReal; |
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delete m_fnRealToInt; |
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delete m_varRealTimer; |
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delete m_varPerfTimer; |
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} |
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|
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VMParserContext* ScriptVM::loadScript(const String& s) { |
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std::istringstream iss(s); |
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return loadScript(&iss); |
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} |
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|
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VMParserContext* ScriptVM::loadScript(std::istream* is) { |
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ParserContext* context = new ParserContext(this); |
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//printf("parserCtx=0x%lx\n", (uint64_t)context); |
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|
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context->registerBuiltInConstIntVariables( builtInConstIntVariables() ); |
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context->registerBuiltInIntVariables( builtInIntVariables() ); |
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context->registerBuiltInIntArrayVariables( builtInIntArrayVariables() ); |
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context->registerBuiltInDynVariables( builtInDynamicVariables() ); |
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|
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context->createScanner(is); |
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|
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InstrScript_parse(context); |
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dmsg(2,("Allocating %lld bytes of global int VM memory.\n", context->globalIntVarCount * sizeof(vmint))); |
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dmsg(2,("Allocating %lld of global VM string variables.\n", context->globalStrVarCount)); |
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if (!context->globalIntMemory) |
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context->globalIntMemory = new ArrayList<vmint>(); |
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if (!context->globalRealMemory) |
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context->globalRealMemory = new ArrayList<vmfloat>(); |
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if (!context->globalStrMemory) |
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context->globalStrMemory = new ArrayList<String>(); |
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context->globalIntMemory->resize(context->globalIntVarCount); |
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context->globalRealMemory->resize(context->globalRealVarCount); |
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memset(&((*context->globalIntMemory)[0]), 0, context->globalIntVarCount * sizeof(vmint)); |
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memset(&((*context->globalRealMemory)[0]), 0, context->globalRealVarCount * sizeof(vmfloat)); |
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|
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context->globalStrMemory->resize(context->globalStrVarCount); |
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|
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context->destroyScanner(); |
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|
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return context; |
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} |
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|
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void ScriptVM::dumpParsedScript(VMParserContext* context) { |
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ParserContext* ctx = dynamic_cast<ParserContext*>(context); |
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if (!ctx) { |
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std::cerr << "No VM context. So nothing to dump.\n"; |
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return; |
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} |
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if (!ctx->handlers) { |
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std::cerr << "No event handlers defined in script. So nothing to dump.\n"; |
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return; |
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} |
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if (!ctx->globalIntMemory) { |
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std::cerr << "Internal error: no global integer memory assigend to script VM.\n"; |
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return; |
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} |
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if (!ctx->globalRealMemory) { |
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std::cerr << "Internal error: no global real number memory assigend to script VM.\n"; |
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return; |
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} |
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ctx->handlers->dump(); |
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} |
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|
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VMExecContext* ScriptVM::createExecContext(VMParserContext* parserContext) { |
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ParserContext* parserCtx = dynamic_cast<ParserContext*>(parserContext); |
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ExecContext* execCtx = new ExecContext(); |
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|
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if (parserCtx->requiredMaxStackSize < 0) { |
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parserCtx->requiredMaxStackSize = |
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_requiredMaxStackSizeFor(&*parserCtx->handlers); |
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} |
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execCtx->stack.resize(parserCtx->requiredMaxStackSize); |
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dmsg(2,("Created VM exec context with %lld bytes VM stack size.\n", |
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parserCtx->requiredMaxStackSize * sizeof(ExecContext::StackFrame))); |
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//printf("execCtx=0x%lx\n", (uint64_t)execCtx); |
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const vmint polySize = parserCtx->polyphonicIntVarCount; |
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execCtx->polyphonicIntMemory.resize(polySize); |
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memset(&execCtx->polyphonicIntMemory[0], 0, polySize * sizeof(vmint)); |
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|
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dmsg(2,("Allocated %lld bytes polyphonic memory.\n", polySize * sizeof(vmint))); |
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return execCtx; |
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} |
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|
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std::vector<VMSourceToken> ScriptVM::syntaxHighlighting(const String& s) { |
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std::istringstream iss(s); |
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return syntaxHighlighting(&iss); |
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} |
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|
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std::vector<VMSourceToken> ScriptVM::syntaxHighlighting(std::istream* is) { |
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try { |
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NkspScanner scanner(is); |
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std::vector<SourceToken> tokens = scanner.tokens(); |
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std::vector<VMSourceToken> result; |
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result.resize(tokens.size()); |
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for (vmint i = 0; i < tokens.size(); ++i) { |
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SourceToken* st = new SourceToken; |
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*st = tokens[i]; |
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result[i] = VMSourceToken(st); |
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} |
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return result; |
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} catch (...) { |
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return std::vector<VMSourceToken>(); |
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} |
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} |
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|
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VMFunction* ScriptVM::functionByName(const String& name) { |
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if (name == "message") return m_fnMessage; |
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else if (name == "exit") return m_fnExit; |
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else if (name == "wait") return m_fnWait; |
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else if (name == "abs") return m_fnAbs; |
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else if (name == "random") return m_fnRandom; |
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else if (name == "num_elements") return m_fnNumElements; |
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else if (name == "inc") return m_fnInc; |
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else if (name == "dec") return m_fnDec; |
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else if (name == "in_range") return m_fnInRange; |
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else if (name == "sh_left") return m_fnShLeft; |
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else if (name == "sh_right") return m_fnShRight; |
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else if (name == "min") return m_fnMin; |
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else if (name == "max") return m_fnMax; |
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else if (name == "array_equal") return m_fnArrayEqual; |
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else if (name == "search") return m_fnSearch; |
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else if (name == "sort") return m_fnSort; |
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else if (name == "int_to_real") return m_fnIntToReal; |
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else if (name == "real") return m_fnIntToReal; |
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else if (name == "real_to_int") return m_fnRealToInt; |
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else if (name == "int") return m_fnRealToInt; |
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return NULL; |
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} |
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|
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bool ScriptVM::isFunctionDisabled(VMFunction* fn, VMParserContext* ctx) { |
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ParserContext* parserCtx = dynamic_cast<ParserContext*>(ctx); |
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if (!parserCtx) return false; |
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|
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if (fn == m_fnMessage && parserCtx->userPreprocessorConditions.count("NKSP_NO_MESSAGE")) |
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return true; |
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|
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return false; |
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} |
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|
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std::map<String,VMIntPtr*> ScriptVM::builtInIntVariables() { |
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return std::map<String,VMIntPtr*>(); |
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} |
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|
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std::map<String,VMInt8Array*> ScriptVM::builtInIntArrayVariables() { |
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return std::map<String,VMInt8Array*>(); |
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} |
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|
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std::map<String,VMDynVar*> ScriptVM::builtInDynamicVariables() { |
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std::map<String,VMDynVar*> m; |
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|
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m["$NKSP_PERF_TIMER"] = m_varPerfTimer; |
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m["$NKSP_REAL_TIMER"] = m_varRealTimer; |
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m["$KSP_TIMER"] = m_varRealTimer; |
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|
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return m; |
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} |
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|
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std::map<String,vmint> ScriptVM::builtInConstIntVariables() { |
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std::map<String,vmint> m; |
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|
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m["$NI_CB_TYPE_INIT"] = VM_EVENT_HANDLER_INIT; |
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m["$NI_CB_TYPE_NOTE"] = VM_EVENT_HANDLER_NOTE; |
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m["$NI_CB_TYPE_RELEASE"] = VM_EVENT_HANDLER_RELEASE; |
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m["$NI_CB_TYPE_CONTROLLER"] = VM_EVENT_HANDLER_CONTROLLER; |
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|
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return m; |
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} |
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|
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VMEventHandler* ScriptVM::currentVMEventHandler() { |
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return m_eventHandler; |
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} |
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|
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VMParserContext* ScriptVM::currentVMParserContext() { |
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return m_parserContext; |
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} |
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|
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VMExecContext* ScriptVM::currentVMExecContext() { |
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if (!m_parserContext) return NULL; |
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return m_parserContext->execContext; |
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} |
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|
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void ScriptVM::setAutoSuspendEnabled(bool b) { |
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m_autoSuspend = b; |
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} |
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|
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bool ScriptVM::isAutoSuspendEnabled() const { |
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return m_autoSuspend; |
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} |
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|
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void ScriptVM::setExitResultEnabled(bool b) { |
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m_acceptExitRes = b; |
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} |
385 |
|
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bool ScriptVM::isExitResultEnabled() const { |
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return m_acceptExitRes; |
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} |
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|
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VMExecStatus_t ScriptVM::exec(VMParserContext* parserContext, VMExecContext* execContex, VMEventHandler* handler) { |
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m_parserContext = dynamic_cast<ParserContext*>(parserContext); |
392 |
if (!m_parserContext) { |
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std::cerr << "No VM parser context provided. Did you load a script?\n"; |
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return VMExecStatus_t(VM_EXEC_NOT_RUNNING | VM_EXEC_ERROR); |
395 |
} |
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|
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// a ParserContext object is always tied to exactly one ScriptVM object |
398 |
assert(m_parserContext->functionProvider == this); |
399 |
|
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ExecContext* ctx = dynamic_cast<ExecContext*>(execContex); |
401 |
if (!ctx) { |
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std::cerr << "Invalid VM exec context.\n"; |
403 |
return VMExecStatus_t(VM_EXEC_NOT_RUNNING | VM_EXEC_ERROR); |
404 |
} |
405 |
EventHandler* h = dynamic_cast<EventHandler*>(handler); |
406 |
if (!h) return VM_EXEC_NOT_RUNNING; |
407 |
m_eventHandler = handler; |
408 |
|
409 |
m_parserContext->execContext = ctx; |
410 |
|
411 |
ctx->status = VM_EXEC_RUNNING; |
412 |
ctx->instructionsCount = 0; |
413 |
ctx->clearExitRes(); |
414 |
StmtFlags_t& flags = ctx->flags; |
415 |
vmint instructionsCounter = 0; |
416 |
vmint synced = m_autoSuspend ? 0 : 1; |
417 |
|
418 |
int& frameIdx = ctx->stackFrame; |
419 |
if (frameIdx < 0) { // start condition ... |
420 |
frameIdx = -1; |
421 |
ctx->pushStack(h); |
422 |
} |
423 |
|
424 |
while (flags == STMT_SUCCESS && frameIdx >= 0) { |
425 |
if (frameIdx >= ctx->stack.size()) { // should never happen, otherwise it's a bug ... |
426 |
std::cerr << "CRITICAL: VM stack overflow! (" << frameIdx << ")\n"; |
427 |
flags = StmtFlags_t(STMT_ABORT_SIGNALLED | STMT_ERROR_OCCURRED); |
428 |
break; |
429 |
} |
430 |
|
431 |
ExecContext::StackFrame& frame = ctx->stack[frameIdx]; |
432 |
switch (frame.statement->statementType()) { |
433 |
case STMT_LEAF: { |
434 |
#if DEBUG_SCRIPTVM_CORE |
435 |
_printIndents(frameIdx); |
436 |
printf("-> STMT_LEAF\n"); |
437 |
#endif |
438 |
LeafStatement* leaf = (LeafStatement*) frame.statement; |
439 |
flags = leaf->exec(); |
440 |
ctx->popStack(); |
441 |
break; |
442 |
} |
443 |
|
444 |
case STMT_LIST: { |
445 |
#if DEBUG_SCRIPTVM_CORE |
446 |
_printIndents(frameIdx); |
447 |
printf("-> STMT_LIST subidx=%d\n", frame.subindex); |
448 |
#endif |
449 |
Statements* stmts = (Statements*) frame.statement; |
450 |
if (stmts->statement(frame.subindex)) { |
451 |
ctx->pushStack( |
452 |
stmts->statement(frame.subindex++) |
453 |
); |
454 |
} else { |
455 |
#if DEBUG_SCRIPTVM_CORE |
456 |
_printIndents(frameIdx); |
457 |
printf("[END OF LIST] subidx=%d\n", frame.subindex); |
458 |
#endif |
459 |
ctx->popStack(); |
460 |
} |
461 |
break; |
462 |
} |
463 |
|
464 |
case STMT_BRANCH: { |
465 |
#if DEBUG_SCRIPTVM_CORE |
466 |
_printIndents(frameIdx); |
467 |
printf("-> STMT_BRANCH\n"); |
468 |
#endif |
469 |
if (frame.subindex < 0) ctx->popStack(); |
470 |
else { |
471 |
BranchStatement* branchStmt = (BranchStatement*) frame.statement; |
472 |
frame.subindex = |
473 |
(decltype(frame.subindex)) |
474 |
branchStmt->evalBranch(); |
475 |
if (frame.subindex >= 0) { |
476 |
ctx->pushStack( |
477 |
branchStmt->branch(frame.subindex) |
478 |
); |
479 |
frame.subindex = -1; |
480 |
} else ctx->popStack(); |
481 |
} |
482 |
break; |
483 |
} |
484 |
|
485 |
case STMT_LOOP: { |
486 |
#if DEBUG_SCRIPTVM_CORE |
487 |
_printIndents(frameIdx); |
488 |
printf("-> STMT_LOOP\n"); |
489 |
#endif |
490 |
While* whileStmt = (While*) frame.statement; |
491 |
if (whileStmt->evalLoopStartCondition() && whileStmt->statements()) { |
492 |
ctx->pushStack( |
493 |
whileStmt->statements() |
494 |
); |
495 |
if (flags == STMT_SUCCESS && !synced && |
496 |
instructionsCounter > SCRIPTVM_MAX_INSTR_PER_CYCLE_SOFT) |
497 |
{ |
498 |
flags = StmtFlags_t(STMT_SUSPEND_SIGNALLED); |
499 |
ctx->suspendMicroseconds = SCRIPT_VM_FORCE_SUSPENSION_MICROSECONDS; |
500 |
} |
501 |
} else ctx->popStack(); |
502 |
break; |
503 |
} |
504 |
|
505 |
case STMT_SYNC: { |
506 |
#if DEBUG_SCRIPTVM_CORE |
507 |
_printIndents(frameIdx); |
508 |
printf("-> STMT_SYNC\n"); |
509 |
#endif |
510 |
SyncBlock* syncStmt = (SyncBlock*) frame.statement; |
511 |
if (!frame.subindex++ && syncStmt->statements()) { |
512 |
++synced; |
513 |
ctx->pushStack( |
514 |
syncStmt->statements() |
515 |
); |
516 |
} else { |
517 |
ctx->popStack(); |
518 |
--synced; |
519 |
} |
520 |
break; |
521 |
} |
522 |
|
523 |
case STMT_NOOP: |
524 |
break; // no operation like the name suggests |
525 |
} |
526 |
|
527 |
if (flags == STMT_SUCCESS && !synced && |
528 |
instructionsCounter > SCRIPTVM_MAX_INSTR_PER_CYCLE_HARD) |
529 |
{ |
530 |
flags = StmtFlags_t(STMT_SUSPEND_SIGNALLED); |
531 |
ctx->suspendMicroseconds = SCRIPT_VM_FORCE_SUSPENSION_MICROSECONDS; |
532 |
} |
533 |
|
534 |
++instructionsCounter; |
535 |
} |
536 |
|
537 |
if ((flags & STMT_SUSPEND_SIGNALLED) && !(flags & STMT_ABORT_SIGNALLED)) { |
538 |
ctx->status = VM_EXEC_SUSPENDED; |
539 |
ctx->flags = STMT_SUCCESS; |
540 |
} else { |
541 |
ctx->status = VM_EXEC_NOT_RUNNING; |
542 |
if (flags & STMT_ERROR_OCCURRED) |
543 |
ctx->status = VM_EXEC_ERROR; |
544 |
ctx->reset(); |
545 |
} |
546 |
|
547 |
ctx->instructionsCount = instructionsCounter; |
548 |
|
549 |
m_eventHandler = NULL; |
550 |
m_parserContext->execContext = NULL; |
551 |
m_parserContext = NULL; |
552 |
return ctx->status; |
553 |
} |
554 |
|
555 |
} // namespace LinuxSampler |