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da5833caef
We're doing this for user labels but not for project/platform symbols. So if you have a constant named "BCC" you can't assemble your code with certain assemblers. Now we rename it automatically. Added a quick test to 2007-labels-and-symbols. (No change to ACME, which barfs on the test.)
529 lines
23 KiB
C#
529 lines
23 KiB
C#
/*
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* Copyright 2019 faddenSoft
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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using System;
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using System.Collections;
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using System.Collections.Generic;
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using System.Diagnostics;
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/*
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Some assemblers support "local labels", with varying definitions of scope and features.
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Generally speaking, local labels only need to be unique within a certain limited scope, and
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they aren't included in end-of-assembly symbol lists.
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One popular form defines its scope as being between two global labels. So this is allowed:
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glob1 lda #$00
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:local sta $00
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glob2 lda #$01
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:local sta $01
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but this would cause an error:
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glob1 lda #$00
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:local sta $00
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glob2 lda #$01
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bne :local
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because the local symbol table is cleared when a global symbol is encountered.
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Another common form allows backward references to labels that don't go out of scope until
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they're re-used. This is useful for short loops. (We use this for variables.)
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As a further limitation, assemblers seem to want the first label encountered in a program
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to be global. On the plus side, all tested assemblers treat local labels as existing in
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a separate namespace, so you can have both "loop" and ":loop".
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The Symbol.SymbolType enum allows a label to be defined as "local or global". We can output
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these with the local-symbol syntax, potentially rewriting them to have non-unique names like
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"loop", but we can't promote (demote?) a label to local unless there are no references to it
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that cross a global label.
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The cross-reference table we generate as part of the analysis process provides a full list of
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label references, so we just need to iterate through the label list until we can't find
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anything else that needs to be made global.
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Because the definition of "local label" is somewhat assembler-specific, it's best to defer
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this analysis to code generation time, when the specific characteristics of the target
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assembler can be taken into account.
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References to an offset can be numeric or symbolic. A purely numeric reference like "LDA $2000"
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will always map to the offset associated with address $2000, but a symbolic reference might be
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offset. For example, the LDA instruction could reference a label at $2008 as "LDA FOO-8".
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The assembler cares about the symbolic references, not the actual offsets or addresses. For
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this reason we can ignore references to an address with a label if those references don't
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actually use the label. (One consequence of this is that formatting an operand as hex
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eliminates it from the set of things for us to consider. Also, ORG directives have no effect
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on the localizer.)
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Labels that are marked as global, but to which there are no references, could in theory be
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elided. To do this we would have to omit them from the generated code, which would be
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annoying and weird if (say) the user added them to label an external entry point.
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The eventual output of our efforts is a map from the original symbol name to the local symbol
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name. This must be applied to both labels and operands.
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*/
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namespace SourceGen.AsmGen {
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public class LabelLocalizer {
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// Prefix string to use for labels that start with '_' when generating code for
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// assemblers that assign a special meaning to leading underscores.
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public const string NO_UNDER_PFX = "X";
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/// <summary>
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/// A pairing of an offset with a label string. (Essentially mAnattribs[n].Symbol
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/// with all the fluff trimmed away.)
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/// </summary>
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/// <remarks>
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/// The label string isn't actually all that useful, since we can pull it back out
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/// of anattrib, but it makes life a little easier during debugging. These get
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/// put into a List, so simply storing a plain int offset it's much better (in terms
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/// of memory and allocations) because the ints get boxed.
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/// </remarks>
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private class OffsetLabel {
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public int Offset { get; private set; }
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public string Label { get; private set; }
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public OffsetLabel(int offset, string label) {
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Offset = offset;
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Label = label;
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}
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public override string ToString() {
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return "+" + Offset.ToString("x6") + "(" + Label + ")";
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}
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}
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/// <summary>
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/// A pair of offsets. An operand (instruction or data) at the source offset
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/// references a label at the destination offset.
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/// </summary>
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private class OffsetPair {
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public int SrcOffset { get; private set; } // offset from which reference is made
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public int DstOffset { get; private set; } // offset being referred to
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public OffsetPair(int src, int dst) {
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SrcOffset = src;
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DstOffset = dst;
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}
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public override string ToString() {
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return "src=+" + SrcOffset.ToString("x6") + " dst=+" + DstOffset.ToString("x6");
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}
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}
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/// <summary>
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/// Map from label string to local label string. This will be null until Analyze()
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/// has executed.
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/// </summary>
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public Dictionary<string, string> LabelMap { get; private set; }
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/// <summary>
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/// String to prefix to local labels. Usually a single character, like ':' or '@'.
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/// </summary>
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public string LocalPrefix { get; set; }
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/// <summary>
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/// Set this if the declaration of a local variable ends the current scope.
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/// </summary>
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public bool QuirkVariablesEndScope { get; set; }
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/// <summary>
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/// Set this if global variables are not allowed to have the same name as an opcode
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/// mnemonic.
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/// </summary>
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public bool QuirkNoOpcodeMnemonics { get; set; }
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/// <summary>
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/// Project reference.
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/// </summary>
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private DisasmProject mProject;
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// Work state.
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private List<OffsetLabel> mGlobalLabels = new List<OffsetLabel>();
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private List<OffsetPair> mOffsetPairs = new List<OffsetPair>();
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private BitArray mGlobalFlags;
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public LabelLocalizer(DisasmProject project) {
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mProject = project;
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mGlobalFlags = new BitArray(mProject.FileDataLength);
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LocalPrefix = "!?";
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}
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/// <summary>
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/// Applies the LabelMap to the label. If the LabelMap is null, or does not have an
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/// entry for the label, the original label is returned.
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/// </summary>
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/// <param name="label">Label to convert.</param>
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/// <returns>New label, or original label.</returns>
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public string ConvLabel(string label) {
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if (LabelMap != null) {
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if (LabelMap.TryGetValue(label, out string newLabel)) {
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label = newLabel;
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}
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}
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return label;
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}
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/// <summary>
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/// Analyzes labels to identify which ones may be treated as non-global.
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/// </summary>
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public void Analyze() {
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Debug.Assert(LocalPrefix.Length > 0);
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// Init global flags list. An entry is set if the associated offset has a global
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// label. It will be false if the entry has a local label, or no label.
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mGlobalFlags.SetAll(false);
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// Currently we only support the "local labels have scope that ends at a global
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// label" variety. The basic idea is to start by assuming that everything not
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// explicitly marked global is local, and then identify situations like this:
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//
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// lda :local
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// global eor #$ff
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// :local sta $00
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//
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// The reference crosses a global label, so the "target" label must be made global.
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// This can have ripple effects, so we have to iterate. Note it doesn't matter
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// whether "global" is referenced anywhere.
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//
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// The current algorithm uses a straightforward O(n^2) approach.
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//
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// Step 1: generate source/target pairs and global label list
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//
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GenerateLists();
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//
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// Step 2: walk through the list of global symbols, identifying source/target
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// pairs that cross them. If a pair matches, the target label is added to the
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// end of the mGlobalLabels list, and removed from the pair list.
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//
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// When we're done, mGlobalFlags[] will identify the offsets with global labels.
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//
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for (int index = 0; index < mGlobalLabels.Count; index++) {
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FindIntersectingPairs(mGlobalLabels[index]);
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}
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// We're done with these. Take out the trash.
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mGlobalLabels.Clear();
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mOffsetPairs.Clear();
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//
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// Step 3: remap global labels. There are three reasons we might need to do this:
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// (1) It has a leading underscore AND LocalPrefix is '_'.
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// (2) The label matches an opcode mnemonic (case-insensitive) AND NoOpcodeMnemonics
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// is set.
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// (3) It's a non-unique local that got promoted to global.
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//
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// In each case we need to modify the label to meet the assembler requirements, and
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// then modify the label until it's unique.
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//
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LabelMap = new Dictionary<string, string>();
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Dictionary<string, string> allGlobalLabels = new Dictionary<string, string>();
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bool remapUnders = (LocalPrefix == "_");
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Dictionary<string, Asm65.OpDef> opNames = null;
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if (QuirkNoOpcodeMnemonics) {
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// Create a searchable list of opcode names using the current CPU definition.
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// (All tested assemblers that failed on opcode names only did so for names
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// that were part of the current definition, e.g. "TSB" was accepted as a label
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// when the CPU was set to 6502.)
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opNames = new Dictionary<string, Asm65.OpDef>();
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Asm65.CpuDef cpuDef = mProject.CpuDef;
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for (int i = 0; i < 256; i++) {
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Asm65.OpDef op = cpuDef.GetOpDef(i);
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// There may be multiple entries with the same name (e.g. "NOP"). That's fine.
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opNames[op.Mnemonic.ToUpperInvariant()] = op;
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}
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}
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for (int i = 0; i < mProject.FileDataLength; i++) {
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if (!mGlobalFlags[i]) {
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continue;
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}
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Symbol sym = mProject.GetAnattrib(i).Symbol;
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if (sym == null) {
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// Should only happen when we insert a dummy global label for the
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// "variables end scope" quirk.
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continue;
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}
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string newLabel = sym.LabelWithoutTag;
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if (remapUnders && newLabel[0] == '_') {
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newLabel = NO_UNDER_PFX + newLabel;
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// This could cause a conflict with an existing label. It's rare but
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// possible.
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if (allGlobalLabels.ContainsKey(newLabel)) {
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newLabel = MakeUnique(newLabel, allGlobalLabels);
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}
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}
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if (opNames != null && opNames.ContainsKey(newLabel.ToUpperInvariant())) {
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// Clashed with mnemonic. Uniquify it.
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newLabel = MakeUnique(newLabel, allGlobalLabels);
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}
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// We might have remapped something earlier and it happens to match this label.
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// If so, we can either remap the current label, or remap the previous label
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// a little harder. The easiest thing to do is remap the current label.
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if (allGlobalLabels.ContainsKey(newLabel)) {
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newLabel = MakeUnique(newLabel, allGlobalLabels);
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}
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// If we've changed it, add it to the map.
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if (newLabel != sym.Label) {
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LabelMap[sym.Label] = newLabel;
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}
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allGlobalLabels.Add(newLabel, newLabel);
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}
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// Remap any project/platform symbols that clash with opcode mnemonics.
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foreach (DefSymbol defSym in mProject.ActiveDefSymbolList) {
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if (opNames != null && opNames.ContainsKey(defSym.Label.ToUpperInvariant())) {
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// Clashed with mnemonic. Uniquify it.
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Debug.WriteLine("Renaming clashing def sym: " + defSym.Label);
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string newLabel = MakeUnique(defSym.Label, allGlobalLabels);
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LabelMap[defSym.Label] = newLabel;
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allGlobalLabels.Add(newLabel, newLabel);
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}
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}
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//
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// Step 4: remap local labels. There are two operations here.
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//
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// For each pair of global labels that have locals between them, we need to walk
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// through the locals and confirm that they don't clash with each other. If they
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// do, we need to uniquify them within the local scope. (This is only an issue
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// for non-unique locals.)
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//
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// Once a unique name has been found, we add an entry to LabelMap that has the
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// label with the LocalPrefix and without the non-unique tag.
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//
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// We also need to deal with symbols with a leading underscore when
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// LocalPrefix is '_'.
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//
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int startGlobal = -1;
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int numLocals = 0;
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// Allocate a Dictionary here and pass it through so we don't have to allocate
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// a new one each time.
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Dictionary<string, string> scopedLocals = new Dictionary<string, string>();
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for (int i = 0; i < mProject.FileDataLength; i++) {
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if (mGlobalFlags[i]) {
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if (startGlobal < 0) {
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// very first one
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startGlobal = i;
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continue;
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} else if (numLocals > 0) {
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// There were locals following the previous global. Process them.
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ProcessLocals(startGlobal, i, scopedLocals);
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startGlobal = i;
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numLocals = 0;
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} else {
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// Two adjacent globals.
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startGlobal = i;
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}
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} else {
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// Not a global. Is there a local symbol here?
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Symbol sym = mProject.GetAnattrib(i).Symbol;
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if (sym != null) {
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numLocals++;
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}
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}
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}
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if (numLocals != 0) {
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// do the last bit
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ProcessLocals(startGlobal, mProject.FileDataLength, scopedLocals);
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}
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}
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/// <summary>
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/// Generates the initial mGlobalFlags and mGlobalLabels lists, as well as the
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/// full cross-reference pair list.
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/// </summary>
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private void GenerateLists() {
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// For every offset that has a label, add an entry to the source/target pair list
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// for every offset that references it.
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//
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// If the label isn't marked as "local or global", add it to the global-label list.
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//
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// The first label encountered is always treated as global. Note it may not appear
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// at offset zero.
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bool first = true;
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for (int offset = 0; offset < mProject.FileDataLength; offset++) {
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// Find all user labels and auto labels.
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Symbol sym = mProject.GetAnattrib(offset).Symbol;
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// In cc65, variable declarations end the local label scope. We insert a
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// fake global symbol if we encounter a table with a nonzero number of entries.
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if (QuirkVariablesEndScope &&
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mProject.LvTables.TryGetValue(offset, out LocalVariableTable value) &&
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value.Count > 0) {
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mGlobalFlags[offset] = true;
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mGlobalLabels.Add(new OffsetLabel(offset, "!VARTAB!"));
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continue;
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}
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if (sym == null) {
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// No label at this offset.
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continue;
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}
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if (first || !sym.CanBeLocal) {
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first = false;
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mGlobalFlags[offset] = true;
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mGlobalLabels.Add(new OffsetLabel(offset, sym.Label));
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// Don't add to pairs list.
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continue;
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}
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// If nothing actually references this label, the xref set will be empty.
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XrefSet xrefs = mProject.GetXrefSet(offset);
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if (xrefs != null) {
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foreach (XrefSet.Xref xref in xrefs) {
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if (!xref.IsByName) {
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continue;
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}
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mOffsetPairs.Add(new OffsetPair(xref.Offset, offset));
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}
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}
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}
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}
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/// <summary>
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/// Identifies all label reference pairs that cross the specified global label. When
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/// a matching pair is found, the pair's destination label is marked as global and
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/// added to the global label list.
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/// </summary>
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/// <param name="glabel">Global label of interest.</param>
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private void FindIntersectingPairs(OffsetLabel glabel) {
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Debug.Assert(mGlobalFlags[glabel.Offset]);
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int glabOffset = glabel.Offset;
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for (int i = 0; i < mOffsetPairs.Count; i++) {
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OffsetPair pair = mOffsetPairs[i];
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// If the destination was marked global earlier, remove the entry and move on.
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if (mGlobalFlags[pair.DstOffset]) {
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mOffsetPairs.RemoveAt(i);
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i--;
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continue;
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}
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// Check to see if the global label falls between the source and destination
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// offsets.
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//
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// If the reference source is itself a global label, it can reference local
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// labels forward, but not backward (i.e. if it crosses itself, the destination
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// must be made global). We need to take that into account for the case where
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// label.Offset==pair.SrcOffset.
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bool intersect;
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if (pair.SrcOffset < pair.DstOffset) {
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// Forward reference. src==glab is ok
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intersect = pair.SrcOffset < glabOffset && pair.DstOffset >= glabOffset;
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} else {
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// Backward reference. src==glab is bad
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intersect = pair.SrcOffset >= glabOffset && pair.DstOffset <= glabOffset;
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}
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if (intersect) {
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//Debug.WriteLine("Global " + glabel + " btwn " + pair + " (" +
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// mProject.GetAnattrib(pair.DstOffset).Symbol.Label + ")");
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// Change the destination label to global.
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mGlobalFlags[pair.DstOffset] = true;
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mGlobalLabels.Add(new OffsetLabel(pair.DstOffset,
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mProject.GetAnattrib(pair.DstOffset).Symbol.Label));
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// Carefully remove it from the list we're iterating through.
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mOffsetPairs.RemoveAt(i);
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i--;
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}
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}
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}
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/// <summary>
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/// Generates map entries for local labels defined between the two globals.
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/// </summary>
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/// <param name="startGlobal">Offset of first global.</param>
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/// <param name="endGlobal">Offset of second global. If this range is at the end of the
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/// file, this offset may be one past the end.</param>
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/// <param name="scopedLocals">Work object (minor alloc optimization).</param>
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private void ProcessLocals(int startGlobal, int endGlobal,
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Dictionary<string, string> scopedLocals) {
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//Debug.WriteLine("ProcessLocals: +" + startGlobal.ToString("x6") +
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// " - +" + endGlobal.ToString("x6"));
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scopedLocals.Clear();
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bool remapUnders = (LocalPrefix == "_");
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for (int i = startGlobal + 1; i < endGlobal; i++) {
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Debug.Assert(!mGlobalFlags[i]);
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Symbol sym = mProject.GetAnattrib(i).Symbol;
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if (sym == null) {
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continue; // no label here
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}
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string newLabel = sym.LabelWithoutTag;
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if (remapUnders && newLabel[0] == '_') {
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newLabel = LocalPrefix + NO_UNDER_PFX + newLabel;
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} else {
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newLabel = LocalPrefix + newLabel;
|
|
}
|
|
|
|
if (scopedLocals.ContainsKey(newLabel)) {
|
|
newLabel = MakeUnique(newLabel, scopedLocals);
|
|
}
|
|
|
|
// Map from the original symbol label to the local form. This works for
|
|
// unique and non-unique locals.
|
|
LabelMap[sym.Label] = newLabel;
|
|
|
|
scopedLocals.Add(newLabel, newLabel);
|
|
}
|
|
}
|
|
|
|
/// <summary>
|
|
/// Alters a label to make it unique. This may be called with a label that is unique
|
|
/// but illegal (e.g. an instruction mnemonic), so we guarantee that the label returned
|
|
/// is different from the argument.
|
|
/// </summary>
|
|
/// <remarks>
|
|
/// We can't put a '_' at the front or an 'L' at the end (LDAL), since that could run
|
|
/// afoul of the things we're trying to work around. We don't want to mess with the
|
|
/// start of the string since it may or may not have the LocalPrefix on it.
|
|
/// </remarks>
|
|
/// <param name="label">Label to uniquify.</param>
|
|
/// <param name="allLabels">Dictionary to uniquify against.</param>
|
|
/// <returns>Modified label</returns>
|
|
private static string MakeUnique(string label, Dictionary<string, string> allLabels) {
|
|
int uval = 0;
|
|
string uniqueLabel;
|
|
do {
|
|
uval++;
|
|
uniqueLabel = label + uval.ToString();
|
|
} while (allLabels.ContainsKey(uniqueLabel));
|
|
|
|
return uniqueLabel;
|
|
}
|
|
}
|
|
}
|