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package org.graalvm.compiler.asm;

import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.function.Consumer;

import jdk.vm.ci.code.Register;
import jdk.vm.ci.code.StackSlot;
import jdk.vm.ci.code.TargetDescription;

The platform-independent base class for the assembler.
/** * The platform-independent base class for the assembler. */
public abstract class Assembler { public abstract static class CodeAnnotation {
The position (bytes from the beginning of the method) of the annotated instruction.
/** * The position (bytes from the beginning of the method) of the annotated instruction. */
public final int instructionPosition; protected CodeAnnotation(int instructionStartPosition) { this.instructionPosition = instructionStartPosition; } } public final TargetDescription target; private List<LabelHint> jumpDisplacementHints;
Backing code buffer.
/** * Backing code buffer. */
private final Buffer codeBuffer; protected Consumer<CodeAnnotation> codePatchingAnnotationConsumer; public Assembler(TargetDescription target) { this.target = target; this.codeBuffer = new Buffer(target.arch.getByteOrder()); } public void setCodePatchingAnnotationConsumer(Consumer<CodeAnnotation> codeAnnotationConsumer) { assert this.codePatchingAnnotationConsumer == null : "overwriting existing value"; this.codePatchingAnnotationConsumer = codeAnnotationConsumer; }
Returns the current position of the underlying code buffer.
Returns:current position in code buffer
/** * Returns the current position of the underlying code buffer. * * @return current position in code buffer */
public int position() { return codeBuffer.position(); } public final void emitByte(int x) { codeBuffer.emitByte(x); } public final void emitShort(int x) { codeBuffer.emitShort(x); } public final void emitInt(int x) { codeBuffer.emitInt(x); } public final void emitLong(long x) { codeBuffer.emitLong(x); } public final void emitByte(int b, int pos) { codeBuffer.emitByte(b, pos); } public final void emitShort(int b, int pos) { codeBuffer.emitShort(b, pos); } public final void emitInt(int b, int pos) { codeBuffer.emitInt(b, pos); } public final void emitLong(long b, int pos) { codeBuffer.emitLong(b, pos); } public final int getByte(int pos) { return codeBuffer.getByte(pos); } public final int getShort(int pos) { return codeBuffer.getShort(pos); } public final int getInt(int pos) { return codeBuffer.getInt(pos); } private static final String NEWLINE = System.getProperty("line.separator");
Some GPU architectures have a text based encoding.
/** * Some GPU architectures have a text based encoding. */
public final void emitString(String x) { emitString0("\t"); // XXX REMOVE ME pretty-printing emitString0(x); emitString0(NEWLINE); } // XXX for pretty-printing public final void emitString0(String x) { codeBuffer.emitBytes(x.getBytes(), 0, x.length()); } public void emitString(String s, int pos) { codeBuffer.emitBytes(s.getBytes(), pos); }
Closes this assembler. No extra data can be written to this assembler after this call.
Params:
  • trimmedCopy – if true, then a copy of the underlying byte array up to (but not including) position() is returned
Returns:the data in this buffer or a trimmed copy if trimmedCopy is true
/** * Closes this assembler. No extra data can be written to this assembler after this call. * * @param trimmedCopy if {@code true}, then a copy of the underlying byte array up to (but not * including) {@code position()} is returned * @return the data in this buffer or a trimmed copy if {@code trimmedCopy} is {@code true} */
public byte[] close(boolean trimmedCopy) { return codeBuffer.close(trimmedCopy); } public void bind(Label l) { assert !l.isBound() : "can bind label only once"; l.bind(position()); l.patchInstructions(this); } public abstract void align(int modulus); public abstract void jmp(Label l); protected abstract void patchJumpTarget(int branch, int jumpTarget); private Map<Label, String> nameMap;
Creates a name for a label.
Params:
  • l – the label for which a name is being created
  • id – a label identifier that is unique with the scope of this assembler
Returns:a label name in the form of "L123"
/** * Creates a name for a label. * * @param l the label for which a name is being created * @param id a label identifier that is unique with the scope of this assembler * @return a label name in the form of "L123" */
protected String createLabelName(Label l, int id) { return "L" + id; }
Gets a name for a label, creating it if it does not yet exist. By default, the returned name is only unique with the scope of this assembler.
/** * Gets a name for a label, creating it if it does not yet exist. By default, the returned name * is only unique with the scope of this assembler. */
public String nameOf(Label l) { if (nameMap == null) { nameMap = new HashMap<>(); } String name = nameMap.get(l); if (name == null) { name = createLabelName(l, nameMap.size()); nameMap.put(l, name); } return name; }
This is used by the CompilationResultBuilder to convert a StackSlot to an AbstractAddress.
/** * This is used by the CompilationResultBuilder to convert a {@link StackSlot} to an * {@link AbstractAddress}. */
public abstract AbstractAddress makeAddress(Register base, int displacement);
Returns a target specific placeholder address that can be used for code patching.
Params:
  • instructionStartPosition – The start of the instruction, i.e., the value that is used as the key for looking up placeholder patching information.
/** * Returns a target specific placeholder address that can be used for code patching. * * @param instructionStartPosition The start of the instruction, i.e., the value that is used as * the key for looking up placeholder patching information. */
public abstract AbstractAddress getPlaceholder(int instructionStartPosition);
Emits a NOP instruction to advance the current PC.
/** * Emits a NOP instruction to advance the current PC. */
public abstract void ensureUniquePC(); public void reset() { codeBuffer.reset(); captureLabelPositions(); } private void captureLabelPositions() { if (jumpDisplacementHints == null) { return; } for (LabelHint request : this.jumpDisplacementHints) { request.capture(); } } public LabelHint requestLabelHint(Label label) { if (jumpDisplacementHints == null) { jumpDisplacementHints = new ArrayList<>(); } LabelHint hint = new LabelHint(label, position()); this.jumpDisplacementHints.add(hint); return hint; } public InstructionCounter getInstructionCounter() { throw new UnsupportedOperationException("Instruction counter is not implemented for " + this); } public static class LabelHint { private Label label; private int forPosition; private int capturedTarget = -1; protected LabelHint(Label label, int lastPosition) { super(); this.label = label; this.forPosition = lastPosition; } protected void capture() { this.capturedTarget = label.position(); } public int getTarget() { assert isValid(); return capturedTarget; } public int getPosition() { assert isValid(); return forPosition; } public boolean isValid() { return capturedTarget >= 0; } }
Instruction counter class which gives the user of the assembler to count different kinds of instructions in the generated assembler code.
/** * Instruction counter class which gives the user of the assembler to count different kinds of * instructions in the generated assembler code. */
public interface InstructionCounter { String[] getSupportedInstructionTypes(); int[] countInstructions(String[] instructionTypes, int beginPc, int endPc); } }