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..
compare: Apple-2-SW:v8.14
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Apple-2-SW:master
Apple-2-SW:v12.0-beta5 Apple-2-SW:v12.0-beta4 Apple-2-SW:v12.0-beta3 Apple-2-SW:v12.0-beta2 Apple-2-SW:v12.0-beta1 Apple-2-SW:v11.4.1 Apple-2-SW:v11.4 Apple-2-SW:v11.3.2 Apple-2-SW:v11.3.1 Apple-2-SW:v11.3 Apple-2-SW:v11.2 Apple-2-SW:v11.1 Apple-2-SW:v11.0.1 Apple-2-SW:v11.0 Apple-2-SW:v10.5.1 Apple-2-SW:v10.5 Apple-2-SW:v10.4.2 Apple-2-SW:v10.4.1 Apple-2-SW:v10.4 Apple-2-SW:v10.3.1 Apple-2-SW:v10.3 Apple-2-SW:v10.2.1 Apple-2-SW:v10.2 Apple-2-SW:v10.1 Apple-2-SW:v10.0 Apple-2-SW:v9.7 Apple-2-SW:v9.6 Apple-2-SW:v9.5.1 Apple-2-SW:v9.5 Apple-2-SW:v9.4.2 Apple-2-SW:v9.4.1 Apple-2-SW:v9.4 Apple-2-SW:v9.3 Apple-2-SW:v9.2.1 Apple-2-SW:v9.2 Apple-2-SW:v9.1 Apple-2-SW:v9.0 Apple-2-SW:v8.14 Apple-2-SW:v8.13 Apple-2-SW:v8.12 Apple-2-SW:v8.11 Apple-2-SW:v8.10 Apple-2-SW:v8.9 Apple-2-SW:v8.8.1 Apple-2-SW:v8.8 Apple-2-SW:v8.7 Apple-2-SW:v8.6.2 Apple-2-SW:v8.6.1 Apple-2-SW:v8.5 Apple-2-SW:v8.4 Apple-2-SW:v8.3.1 Apple-2-SW:v8.3 Apple-2-SW:v8.2 Apple-2-SW:v8.1 Apple-2-SW:v8.0 Apple-2-SW:v7.9 Apple-2-SW:v7.8 Apple-2-SW:v7.7.1 Apple-2-SW:v7.7 Apple-2-SW:v7.6 Apple-2-SW:v7.5 Apple-2-SW:v7.4.1 Apple-2-SW:v7.4 Apple-2-SW:v7.3 Apple-2-SW:v7.2 Apple-2-SW:version7.2 Apple-2-SW:version7.1 Apple-2-SW:v7.1-beta Apple-2-SW:v7.0 Apple-2-SW:v7.0-beta2 Apple-2-SW:v7.0-beta Apple-2-SW:v6.5-beta Apple-2-SW:v6.4 Apple-2-SW:v6.3 Apple-2-SW:v6.2 Apple-2-SW:v6.1 Apple-2-SW:v6.0 Apple-2-SW:v6.0-beta Apple-2-SW:v5.4 Apple-2-SW:v5.3 Apple-2-SW:v5.2 Apple-2-SW:v5.1 Apple-2-SW:v5.0 Apple-2-SW:v4.6 Apple-2-SW:v4.5 Apple-2-SW:v4.4 Apple-2-SW:v4.3 Apple-2-SW:v4.2 Apple-2-SW:v4.1 Apple-2-SW:v4.0 Apple-2-SW:v3.2 Apple-2-SW:v3.1 Apple-2-SW:v3.0 Apple-2-SW:v2.4 Apple-2-SW:v2.3 Apple-2-SW:v2.2 Apple-2-SW:v2.1 Apple-2-SW:v2.0 Apple-2-SW:v1.91 Apple-2-SW:v1.90 Apple-2-SW:v1.81 Apple-2-SW:v1.80 Apple-2-SW:v1.70 Apple-2-SW:v1.62 Apple-2-SW:v1.61 Apple-2-SW:v1.60 Apple-2-SW:v1.52 Apple-2-SW:v1.51 Apple-2-SW:v1.50 Apple-2-SW:v1.20 Apple-2-SW:v1.11 Apple-2-SW:v1.10 Apple-2-SW:v1.9 Apple-2-SW:v1.8 Apple-2-SW:v1.7 Apple-2-SW:v1.6 Apple-2-SW:v1.5-beta Apple-2-SW:v1.4-beta Apple-2-SW:v1.3-beta Apple-2-SW:v1.2-beta Apple-2-SW:v1.1-beta Apple-2-SW:v1.0-beta

1 Commits
v12.0-beta ... v8.14

Author SHA1 Message Date
Irmen de Jong
e55a675d2e release 8.14 2023-05-29 23:00:43 +02:00
664 changed files with 39858 additions and 106807 deletions
Expand all files Collapse all files

17
.aiignore
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@@ -1,17 +0,0 @@
# An .aiignore file follows the same syntax as a .gitignore file.
# .gitignore documentation: https://git-scm.com/docs/gitignore
# you can ignore files
.DS_Store
*.log
*.tmp
*.bin
*.prg
# or folders
dist/
build/
out/
output/
.gradle/
.kotlin/

14
.github/FUNDING.yml vendored
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@@ -1,14 +0,0 @@
# These are supported funding model platforms
#github: # Replace with up to 4 GitHub Sponsors-enabled usernames e.g., [user1, user2]
#patreon: # Replace with a single Patreon username
#open_collective: # Replace with a single Open Collective username
ko_fi: irmen
#tidelift: # Replace with a single Tidelift platform-name/package-name e.g., npm/babel
#community_bridge: # Replace with a single Community Bridge project-name e.g., cloud-foundry
#liberapay: # Replace with a single Liberapay username
#issuehunt: # Replace with a single IssueHunt username
#otechie: # Replace with a single Otechie username
#lfx_crowdfunding: # Replace with a single LFX Crowdfunding project-name e.g., cloud-foundry
#custom: # Replace with up to 4 custom sponsorship URLs e.g., ['link1', 'link2']
custom: ['https://paypal.me/irmendejong']

32
.github/workflows/all-ci.yml vendored
View File

@@ -10,32 +10,22 @@ jobs:
steps:
- name: Checkout code
uses: actions/checkout@v4
uses: actions/checkout@v2
- name: build and install recent 64tass
run: |
sudo apt-get install -y make build-essential
git clone --depth=1 https://github.com/irmen/64tass
cd 64tass
make -j4
sudo make install
- name: Install 64tass
run: sudo apt-get update -y && sudo apt-get install -y 64tass
- name: Set up JDK 17
uses: actions/setup-java@v4
- name: Set up JDK 11
uses: actions/setup-java@v2
with:
java-version: 17
distribution: temurin
java-version: 11
distribution: adopt
- name: Build and test with Gradle
run: |
./gradlew build shadowJar --no-daemon
sha256sum -b compiler/build/libs/*-all.jar > compiler/build/libs/hash.txt
run: ./gradlew build shadowJar --no-daemon
- name: Create compiler shadowJar artifact
uses: actions/upload-artifact@v4
uses: actions/upload-artifact@v3
with:
name: prog8-compiler-jar-zipped
path: |
compiler/build/libs/*-all.jar
compiler/build/libs/hash.txt
path: compiler/build/libs/*-all.jar

12
.gitignore vendored
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@@ -1,34 +1,26 @@
.idea/workspace.xml
.idea/discord.xml
.idea/developer-tools.xml
.idea/usage.statistics.xml
.idea/shelf/
build/
dist/
output/
out/
out-new/
out-old/
.*cache/
*.directory
*.prg
*.bin
*.p8ir
*.labels.txt
*.vm.txt
*.vice-mon-list
docs/build
out/
parser/**/*.interp
parser/**/*.tokens
parser/**/*.java
compiler/src/prog8/buildversion/*
*.py[cod]
*.egg
*.egg-info
.eggs/
/MANIFEST
.tox/
.kotlin/
__pycache__/
parser.out
parsetab.py
@@ -37,6 +29,6 @@ parsetab.py
compiler/lib/
.gradle
/prog8compiler.jar
sd*.img
*.d64

1581
.idea/inspectionProfiles/Project_Default.xml generated
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File diff suppressed because it is too large Load Diff

12
.idea/kotlinc.xml generated
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@@ -1,19 +1,9 @@
<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="Kotlin2JsCompilerArguments">
<option name="moduleKind" value="plain" />
</component>
<component name="Kotlin2JvmCompilerArguments">
<option name="jvmTarget" value="11" />
</component>
<component name="KotlinCommonCompilerArguments">
<option name="apiVersion" value="2.2" />
<option name="languageVersion" value="2.2" />
</component>
<component name="KotlinCompilerSettings">
<option name="additionalArguments" value="-Xwhen-guards -jvm-default=no-compatibility" />
</component>
<component name="KotlinJpsPluginSettings">
<option name="version" value="2.2.0" />
<option name="version" value="1.8.21-release-380" />
</component>
</project>

28
.idea/libraries/KotlinJavaRuntime.xml generated
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@@ -1,23 +1,19 @@
<component name="libraryTable">
<library name="KotlinJavaRuntime" type="repository">
<properties maven-id="org.jetbrains.kotlin:kotlin-stdlib-jdk8:2.2.20" />
<library name="KotlinJavaRuntime">
<CLASSES>
<root url="jar://$MAVEN_REPOSITORY$/org/jetbrains/kotlin/kotlin-stdlib-jdk8/2.2.20/kotlin-stdlib-jdk8-2.2.20.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/jetbrains/kotlin/kotlin-stdlib/2.2.20/kotlin-stdlib-2.2.20.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/jetbrains/annotations/13.0/annotations-13.0.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/jetbrains/kotlin/kotlin-stdlib-jdk7/2.2.20/kotlin-stdlib-jdk7-2.2.20.jar!/" />
<root url="jar://$KOTLIN_BUNDLED$/lib/kotlin-stdlib.jar!/" />
<root url="jar://$KOTLIN_BUNDLED$/lib/kotlin-reflect.jar!/" />
<root url="jar://$KOTLIN_BUNDLED$/lib/kotlin-test.jar!/" />
<root url="jar://$KOTLIN_BUNDLED$/lib/kotlin-stdlib-jdk7.jar!/" />
<root url="jar://$KOTLIN_BUNDLED$/lib/kotlin-stdlib-jdk8.jar!/" />
</CLASSES>
<JAVADOC>
<root url="jar://$MAVEN_REPOSITORY$/org/jetbrains/kotlin/kotlin-stdlib-jdk8/2.2.20/kotlin-stdlib-jdk8-2.2.20-javadoc.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/jetbrains/kotlin/kotlin-stdlib/2.2.20/kotlin-stdlib-2.2.20-javadoc.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/jetbrains/annotations/13.0/annotations-13.0-javadoc.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/jetbrains/kotlin/kotlin-stdlib-jdk7/2.2.20/kotlin-stdlib-jdk7-2.2.20-javadoc.jar!/" />
</JAVADOC>
<JAVADOC />
<SOURCES>
<root url="jar://$MAVEN_REPOSITORY$/org/jetbrains/kotlin/kotlin-stdlib-jdk8/2.2.20/kotlin-stdlib-jdk8-2.2.20-sources.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/jetbrains/kotlin/kotlin-stdlib/2.2.20/kotlin-stdlib-2.2.20-sources.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/jetbrains/annotations/13.0/annotations-13.0-sources.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/jetbrains/kotlin/kotlin-stdlib-jdk7/2.2.20/kotlin-stdlib-jdk7-2.2.20-sources.jar!/" />
<root url="jar://$KOTLIN_BUNDLED$/lib/kotlin-stdlib-sources.jar!/" />
<root url="jar://$KOTLIN_BUNDLED$/lib/kotlin-reflect-sources.jar!/" />
<root url="jar://$KOTLIN_BUNDLED$/lib/kotlin-test-sources.jar!/" />
<root url="jar://$KOTLIN_BUNDLED$/lib/kotlin-stdlib-jdk7-sources.jar!/" />
<root url="jar://$KOTLIN_BUNDLED$/lib/kotlin-stdlib-jdk8-sources.jar!/" />
</SOURCES>
</library>
</component>

6
.idea/libraries/antlr_antlr4.xml generated
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@@ -1,13 +1,13 @@
<component name="libraryTable">
<library name="antlr.antlr4" type="repository">
<properties maven-id="org.antlr:antlr4:4.13.2">
<properties maven-id="org.antlr:antlr4:4.12.0">
<exclude>
<dependency maven-id="com.ibm.icu:icu4j" />
</exclude>
</properties>
<CLASSES>
<root url="jar://$MAVEN_REPOSITORY$/org/antlr/antlr4/4.13.2/antlr4-4.13.2.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/antlr/antlr4-runtime/4.13.2/antlr4-runtime-4.13.2.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/antlr/antlr4/4.12.0/antlr4-4.12.0.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/antlr/antlr4-runtime/4.12.0/antlr4-runtime-4.12.0.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/antlr/antlr-runtime/3.5.3/antlr-runtime-3.5.3.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/antlr/ST4/4.3.4/ST4-4.3.4.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/abego/treelayout/org.abego.treelayout.core/1.0.3/org.abego.treelayout.core-1.0.3.jar!/" />

13
.idea/libraries/eclipse_lsp4j.xml generated
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@@ -1,13 +0,0 @@
<component name="libraryTable">
<library name="eclipse.lsp4j" type="repository">
<properties maven-id="org.eclipse.lsp4j:org.eclipse.lsp4j:0.24.0" />
<CLASSES>
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<root url="jar://$MAVEN_REPOSITORY$/org/eclipse/lsp4j/org.eclipse.lsp4j.jsonrpc/0.24.0/org.eclipse.lsp4j.jsonrpc-0.24.0.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/com/google/code/gson/gson/2.13.1/gson-2.13.1.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/com/google/errorprone/error_prone_annotations/2.38.0/error_prone_annotations-2.38.0.jar!/" />
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<JAVADOC />
<SOURCES />
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25
.idea/libraries/github_hypfvieh_dbus_java.xml generated Normal file
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@@ -0,0 +1,25 @@
<component name="libraryTable">
<library name="github.hypfvieh.dbus.java" type="repository">
<properties maven-id="com.github.hypfvieh:dbus-java:3.3.2" />
<CLASSES>
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<root url="jar://$MAVEN_REPOSITORY$/org/ow2/asm/asm/9.2/asm-9.2.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/ow2/asm/asm-commons/9.2/asm-commons-9.2.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/ow2/asm/asm-analysis/9.2/asm-analysis-9.2.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/ow2/asm/asm-tree/9.2/asm-tree-9.2.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/ow2/asm/asm-util/9.2/asm-util-9.2.jar!/" />
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<root url="jar://$MAVEN_REPOSITORY$/org/slf4j/slf4j-api/1.7.36/slf4j-api-1.7.36.jar!/" />
</CLASSES>
<JAVADOC />
<SOURCES />
</library>
</component>

10
.idea/libraries/glassfish_javax_json.xml generated Normal file
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@@ -0,0 +1,10 @@
<component name="libraryTable">
<library name="glassfish.javax.json" type="repository">
<properties include-transitive-deps="false" maven-id="org.glassfish:javax.json:1.1.4" />
<CLASSES>
<root url="jar://$MAVEN_REPOSITORY$/org/glassfish/javax.json/1.1.4/javax.json-1.1.4.jar!/" />
</CLASSES>
<JAVADOC />
<SOURCES />
</library>
</component>

23
.idea/libraries/io_kotest_assertions_core_jvm.xml generated Normal file
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@@ -0,0 +1,23 @@
<component name="libraryTable">
<library name="io.kotest.assertions.core.jvm" type="repository">
<properties maven-id="io.kotest:kotest-assertions-core-jvm:5.5.5" />
<CLASSES>
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<root url="jar://$MAVEN_REPOSITORY$/org/jetbrains/kotlin/kotlin-stdlib/1.6.21/kotlin-stdlib-1.6.21.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/jetbrains/annotations/13.0/annotations-13.0.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/jetbrains/kotlin/kotlin-stdlib-jdk7/1.6.21/kotlin-stdlib-jdk7-1.6.21.jar!/" />
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<root url="jar://$MAVEN_REPOSITORY$/io/github/java-diff-utils/java-diff-utils/4.12/java-diff-utils-4.12.jar!/" />
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<root url="jar://$MAVEN_REPOSITORY$/org/jetbrains/kotlin/kotlin-reflect/1.6.21/kotlin-reflect-1.6.21.jar!/" />
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24
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66
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21
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11
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18
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<root url="jar://$MAVEN_REPOSITORY$/com/sun/xml/bind/jaxb-core/4.0.0/jaxb-core-4.0.0.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/jakarta/xml/bind/jakarta.xml.bind-api/4.0.0/jakarta.xml.bind-api-4.0.0.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/jakarta/activation/jakarta.activation-api/2.1.0/jakarta.activation-api-2.1.0.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/org/eclipse/angus/angus-activation/1.0.0/angus-activation-1.0.0.jar!/" />
<root url="jar://$MAVEN_REPOSITORY$/com/sun/xml/bind/jaxb-impl/4.0.0/jaxb-impl-4.0.0.jar!/" />
</CLASSES>
<JAVADOC />
<SOURCES />
</library>
</component>

13
.idea/misc.xml generated
View File

@@ -4,29 +4,22 @@
<option name="perGrammarGenerationSettings">
<list>
<PerGrammarGenerationSettings>
<option name="fileName" value="$PROJECT_DIR$/parser/src/main/antlr/Prog8ANTLR.g4" />
<option name="fileName" value="$PROJECT_DIR$/parser/antlr/Prog8ANTLR.g4" />
<option name="autoGen" value="true" />
<option name="outputDir" value="$PROJECT_DIR$/parser/src/prog8/parser" />
<option name="libDir" value="" />
<option name="encoding" value="" />
<option name="pkg" value="" />
<option name="language" value="Java" />
<option name="language" value="" />
<option name="generateListener" value="false" />
<option name="generateVisitor" value="true" />
</PerGrammarGenerationSettings>
</list>
</option>
</component>
<component name="Black">
<option name="sdkName" value="Python 3.11" />
</component>
<component name="FrameworkDetectionExcludesConfiguration">
<type id="Python" />
</component>
<component name="ProjectRootManager" version="2" languageLevel="JDK_21" default="true" project-jdk-name="openjdk-21" project-jdk-type="JavaSDK">
<component name="ProjectRootManager" version="2" languageLevel="JDK_11" default="true" project-jdk-name="openjdk-11" project-jdk-type="JavaSDK">
<output url="file://$PROJECT_DIR$/out" />
</component>
<component name="PythonCompatibilityInspectionAdvertiser">
<option name="version" value="3" />
</component>
</project>

7
.idea/modules.xml generated
View File

@@ -2,8 +2,6 @@
<project version="4">
<component name="ProjectModuleManager">
<modules>
<module fileurl="file://$PROJECT_DIR$/beanshell/beanshell.iml" filepath="$PROJECT_DIR$/beanshell/beanshell.iml" />
<module fileurl="file://$PROJECT_DIR$/benchmark-program/benchmark-program.iml" filepath="$PROJECT_DIR$/benchmark-program/benchmark-program.iml" />
<module fileurl="file://$PROJECT_DIR$/codeCore/codeCore.iml" filepath="$PROJECT_DIR$/codeCore/codeCore.iml" />
<module fileurl="file://$PROJECT_DIR$/codeGenCpu6502/codeGenCpu6502.iml" filepath="$PROJECT_DIR$/codeGenCpu6502/codeGenCpu6502.iml" />
<module fileurl="file://$PROJECT_DIR$/codeGenExperimental/codeGenExperimental.iml" filepath="$PROJECT_DIR$/codeGenExperimental/codeGenExperimental.iml" />
@@ -12,13 +10,12 @@
<module fileurl="file://$PROJECT_DIR$/codeOptimizers/codeOptimizers.iml" filepath="$PROJECT_DIR$/codeOptimizers/codeOptimizers.iml" />
<module fileurl="file://$PROJECT_DIR$/compiler/compiler.iml" filepath="$PROJECT_DIR$/compiler/compiler.iml" />
<module fileurl="file://$PROJECT_DIR$/compilerAst/compilerAst.iml" filepath="$PROJECT_DIR$/compilerAst/compilerAst.iml" />
<module fileurl="file://$PROJECT_DIR$/dbusCompilerService/dbusCompilerService.iml" filepath="$PROJECT_DIR$/dbusCompilerService/dbusCompilerService.iml" />
<module fileurl="file://$PROJECT_DIR$/docs/docs.iml" filepath="$PROJECT_DIR$/docs/docs.iml" />
<module fileurl="file://$PROJECT_DIR$/examples/examples.iml" filepath="$PROJECT_DIR$/examples/examples.iml" />
<module fileurl="file://$PROJECT_DIR$/httpCompilerService/httpCompilerService.iml" filepath="$PROJECT_DIR$/httpCompilerService/httpCompilerService.iml" />
<module fileurl="file://$PROJECT_DIR$/intermediate/intermediate.iml" filepath="$PROJECT_DIR$/intermediate/intermediate.iml" />
<module fileurl="file://$PROJECT_DIR$/languageServer/languageServer.iml" filepath="$PROJECT_DIR$/languageServer/languageServer.iml" />
<module fileurl="file://$PROJECT_DIR$/parser/parser.iml" filepath="$PROJECT_DIR$/parser/parser.iml" />
<module fileurl="file://$PROJECT_DIR$/.idea/modules/prog8.iml" filepath="$PROJECT_DIR$/.idea/modules/prog8.iml" />
<module fileurl="file://$PROJECT_DIR$/simpleAst/simpleAst.iml" filepath="$PROJECT_DIR$/simpleAst/simpleAst.iml" />
<module fileurl="file://$PROJECT_DIR$/virtualmachine/virtualmachine.iml" filepath="$PROJECT_DIR$/virtualmachine/virtualmachine.iml" />
</modules>
</component>

20
.readthedocs.yaml
View File

@@ -9,19 +9,17 @@ version: 2
build:
os: ubuntu-22.04
tools:
python: "3.12"
python: "3.11"
# Build documentation in the docs/ directory with Sphinx
sphinx:
configuration: docs/source/conf.py
# If using Sphinx, optionally build your docs in additional formats such as PDF
formats:
- pdf
# Optionally declare the Python requirements required to build your docs
python:
install:
- requirements: docs/requirements.txt
# Build documentation in the docs/ directory with Sphinx
sphinx:
configuration: docs/source/conf.py
fail_on_warning: true
# If using Sphinx, optionally build your docs in additional formats such as PDF
formats:
- pdf
- epub

12
Makefile
View File

@@ -1,12 +0,0 @@
# super simple Makefile to lauch the main gradle targets to build and/or test the prog8 compiler
.PHONY: all test
all:
gradle installdist installshadowdist
@echo "compiler launch script can be found here: compiler/build/install/compiler-shadow/bin/prog8c"
test:
gradle build
@echo "compiler launch script can be found here: compiler/build/install/compiler-shadow/bin/prog8c"

84
README.md
View File

@@ -1,7 +1,3 @@
[![ko-fi](https://ko-fi.com/img/githubbutton_sm.svg)](https://ko-fi.com/H2H6S0FFF)
PayPal: [![PayPal](https://www.paypalobjects.com/en_US/i/btn/btn_donate_LG.gif)](https://paypal.me/irmendejong)
[![Documentation](https://readthedocs.org/projects/prog8/badge/?version=latest)](https://prog8.readthedocs.io/)
Prog8 - Structured Programming Language for 8-bit 6502/65c02 microprocessors
@@ -13,37 +9,11 @@ This is a structured programming language for the 8-bit 6502/6510/65c02 micropro
as used in many home computers from that era. It is a medium to low level programming language,
which aims to provide many conveniences over raw assembly code (even when using a macro assembler).
**Want to buy me a coffee or a pizza perhaps?**
This project was created over the last couple of years by dedicating thousands of hours of my free time to it, to make it the best I possibly can.
If you like Prog8, and think it's worth a nice cup of hot coffee or a delicious pizza,
you can help me out a little bit over at [ko-fi.com/irmen](https://ko-fi.com/irmen) or [PayPal](https://paypal.me/irmendejong)
Documentation
-------------
Full documentation (syntax reference, how to use the language and the compiler, etc.) can be found at:
https://prog8.readthedocs.io/
How to get it/build it
----------------------
- Download the latest [official release](https://github.com/irmen/prog8/releases) from github.
- Or, if you want/need a bleeding edge development version, you can:
- download a build artifact zipfile from a recent [github action build](https://github.com/irmen/prog8/actions).
- you can also compile it yourself from source. [Instructions here](https://prog8.readthedocs.io/en/latest/compiling.html).
Note that if you are not using *gradle* to build it, you might have to perform some manual
tasks once to make it compile fully. These are explained in the linked instructions.
- Alternatively, you can also install the compiler as a package on some linux distros:
- Arch (via AUR): [`prog8`](https://aur.archlinux.org/packages/prog8)
Community
---------
Most of the development on Prog8 and the use of it is currently centered around
the [Commander X16](https://www.commanderx16.com/) retro computer. Their [discord server](https://discord.gg/nS2PqEC) contains a small channel
dedicated to Prog8. Other than that, use the issue tracker on github.
Software license
----------------
GNU GPL 3.0 (see file LICENSE), with exception for generated code:
@@ -56,33 +26,26 @@ GNU GPL 3.0 (see file LICENSE), with exception for generated code:
What does Prog8 provide?
------------------------
- all advantages of a higher level language over having to write assembly code manually
- programs run very fast because it's compiled to native machine code
- code often is smaller and faster than equivalent C code compiled with CC65 or even LLVM-MOS
- modularity, symbol scoping, subroutines. No need for forward declarations.
- reduction of source code length over raw assembly
- fast execution speed due to compilation to native assembly code. It's possible to write certain raster interrupt 'demoscene' effects purely in Prog8.
- modularity, symbol scoping, subroutines
- various data types other than just bytes (16-bit words, floats, strings)
- Structs and typed pointers
- floating point math is supported on certain targets
- access to most Kernal ROM routines as external subroutine definitions you can call normally
- tight control over Zeropage usage
- programs can be run multiple times without reloading because of automatic variable (re)initializations.
- programs can be configured to execute in ROM
- floating point math is supported if the target system provides floating point library routines (C64 and Cx16 both do)
- strings can contain escaped characters but also many symbols directly if they have a petscii equivalent, such as "♠♥♣♦π▚●○╳". Characters like ^, _, \, {, } and | are also accepted and converted to the closest petscii equivalents.
- automatic static variable allocations, automatic string and array variables and string sharing
- subroutines with input parameters and result values
- high-level program optimizations
- conditional branches that map 1:1 to cpu status flags
- small program boilerplate/compilersupport overhead
- programs can be run multiple times without reloading because of automatic variable (re)initializations.
- conditional branches
- ``when`` statement to provide a concise jump table alternative to if/elseif chains
- ``on .. goto`` statement for fast jump tables
- ``in`` expression for concise and efficient multi-value/containment check
- ``defer`` statement to help write concise and robust subroutine cleanup logic
- several specialized built-in functions such as ``lsb``, ``msb``, ``min``, ``max``, ``rol``, ``ror``
- many built-in functions such as ``sin``, ``cos``, ``rnd``, ``abs``, ``min``, ``max``, ``sqrt``, ``msb``, ``rol``, ``ror``, ``swap``, ``sort`` and ``reverse``
- various powerful built-in libraries to do I/O, number conversions, graphics and more
- subroutines can return more than one result value
- convenience abstractions for low level aspects such as ZeroPage handling, program startup, explicit memory addresses
- inline assembly allows you to have full control when every cycle or byte matters
- supports the sixteen 'virtual' 16-bit registers R0 - R15 from the Commander X16 (also available on other targets)
- encode strings and characters into petscii or screencodes or even other encodings
- Automatic ROM/RAM bank switching on certain compiler targets when calling routines in other banks
- 50 Kb of available program RAM size on the C64 by default; because Basic ROM is banked out altogether
- supports the sixteen 'virtual' 16-bit registers R0 - R15 from the Commander X16, and provides them also on the C64.
- encode strings and characters into petscii or screencodes as desired (C64/Cx16)
*Rapid edit-compile-run-debug cycle:*
@@ -93,11 +56,9 @@ What does Prog8 provide?
*Multiple supported compiler targets* (contributions to improve these or to add support for other machines are welcome!):
- "cx16": [CommanderX16](https://www.commanderx16.com) (65c02 CPU)
- "c64": Commodore-64 (6502 like CPU)
- "c128": Commodore-128 (6502 like CPU - the Z80 cpu mode is not supported)
- "pet32": Commodore PET (limited support)
- via external configurable targets: Atari 800 XL, Neo6502, NES, C64 OS, Foenix F256, ...
- "cx16": [CommanderX16](https://www.commanderx16.com) (65c02 CPU)
- If you only use standard kernal and prog8 library routines, it is possible to compile the *exact same program* for different machines (just change the compiler target flag)
@@ -130,13 +91,14 @@ This code calculates prime numbers using the Sieve of Eratosthenes algorithm::
%import textio
%zeropage basicsafe
main {
bool[256] sieve
ubyte[256] sieve
ubyte candidate_prime = 2 ; is increased in the loop
sub start() {
sys.memset(sieve, 256, 0) ; clear the sieve
sys.memset(sieve, 256, false) ; clear the sieve
txt.print("prime numbers up to 255:\n\n")
ubyte amount=0
repeat {
@@ -172,6 +134,9 @@ This code calculates prime numbers using the Sieve of Eratosthenes algorithm::
}
}
when compiled an ran on a C-64 you'll get:
![c64 screen](docs/source/_static/primes_example.png)
@@ -193,12 +158,3 @@ For instance here's a well known space ship animated in 3D with hidden line remo
in the CommanderX16 emulator:
![cobra3d](docs/source/_static/cobra3d.png)
Performance comparison with various C compilers
-----------------------------------------------
Here is a performance comparison with various C compilers for the 6502/C64 so you can get
an idea of how Prog8 stacks up.
[comparison](benchmark-c/benchmark.md)

65
beanshell/build.gradle.kts
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@@ -1,65 +0,0 @@
import org.jetbrains.kotlin.gradle.dsl.JvmTarget
plugins {
id("application")
kotlin("jvm")
}
val serverMainClassName = "prog8lsp.MainKt"
val applicationName = "prog8-beanshell"
application {
mainClass.set(serverMainClassName)
description = "Code completions, diagnostics and more for Prog8"
// applicationDefaultJvmArgs = listOf("-DkotlinLanguageServer.version=$version")
applicationDistribution.into("bin") {
filePermissions {
user {
read=true
execute=true
write=true
}
other.execute = true
group.execute = true
}
}
}
repositories {
mavenCentral()
}
dependencies {
implementation(files("lib/bsh-3.0.0-SNAPSHOT.jar"))
}
configurations.forEach { config ->
config.resolutionStrategy {
preferProjectModules()
}
}
sourceSets.main {
java.srcDir("src")
resources.srcDir("resources")
}
tasks.startScripts {
applicationName = "prog8-beanshell"
}
tasks.register<Exec>("fixFilePermissions") {
// When running on macOS or Linux the start script
// needs executable permissions to run.
onlyIf { !System.getProperty("os.name").lowercase().contains("windows") }
commandLine("chmod", "+x", "${tasks.installDist.get().destinationDir}/bin/prog8-beanshell")
}
tasks.installDist {
finalizedBy("fixFilePermissions")
}
tasks.build {
finalizedBy("installDist")
}

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48
beanshell/src/prog8beanshell/CommandLineReader.kt
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@@ -1,48 +0,0 @@
package prog8beanshell
import java.io.FilterReader
import java.io.Reader
class CommandLineReader(val input: Reader): FilterReader(input) {
private val normal = 0
private val lastCharNL = 1
private val sentSemi = 2
private var state = lastCharNL
override fun read(): Int {
if (state == sentSemi) {
this.state = lastCharNL
return 10
} else {
var b = input.read()
while(b==13) b = input.read()
if (b == 10) {
if (this.state == lastCharNL) {
b = 59
this.state = sentSemi
} else {
this.state = lastCharNL
}
} else {
this.state = normal
}
return b
}
}
override fun read(buff: CharArray, off: Int, len: Int): Int {
val b = read()
if (b == -1) {
return -1
} else {
buff[off] = b.toChar()
return 1
}
}
}

23
beanshell/src/prog8beanshell/Main.kt
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@@ -1,23 +0,0 @@
package prog8beanshell
import bsh.FileReader
import bsh.Interpreter
class BeanshellInterpreter {
fun run(symbols: Map<String, Any>) {
val interpreter = Interpreter(CommandLineReader(FileReader(System.`in`)), System.out, System.err, true)
interpreter.setExitOnEOF(false)
symbols.forEach { (name, value) -> interpreter.set(name, value) }
interpreter.run()
}
}
fun main(args: Array<String>) {
val i = BeanshellInterpreter()
i.run(mapOf(
"env" to System.getenv(),
"args" to args
))
}

26
benchmark-c/benchmark.md
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@@ -1,26 +0,0 @@
# C-Bench-64 comparison
Several benchmarks of https://thred.github.io/c-bench-64/
have been ported to equivalent Prog8 code and the benchmark results have been penciled in in the graphs below.
Maybe one day I'll try to integrate the prog8 data properly but their benchmark site is comparing C compilers, which Prog8 clearly is not.
However conclusions so far (note: these are micro benchmarks so interpret the results as you will!)
* Prog8 program size is consistently the smallest by a fair bit.
* Prog8 execution speed places it more or less in the middle of the stack.
Measured with Prog8 V12.0 .
![crc8](result-crc8.png)
![crc16](result-crc16.png)
![crc32](result-crc32.png)
![pow](result-pow.png)
![sieve](result-sieve.png)
![sieve-bit](result-sieve-bit.png)

71
benchmark-c/crc16.p8
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@@ -1,71 +0,0 @@
%import textio
%import floats
; note: Prog8 has a complete CRC16 routine in its library: math.crc16
main {
sub start() {
txt.lowercase()
test.benchmark_name()
cbm.SETTIM(0,0,0)
test.benchmark()
txt.print_f(floats.time() / 60)
txt.print(" seconds\n")
void test.benchmark_check()
repeat {}
}
}
test {
const uword EXPECTED = $ffd0
uword crc_result
sub benchmark_name()
{
txt.print("crc16.p8\n")
txt.print("Calculates the CRC16 of the C64 Kernal\n")
}
sub benchmark()
{
crc_result = CRC16($e000, $2000)
}
sub benchmark_check() -> bool
{
txt.print("CRC=")
txt.print_uwhex(crc_result, true)
if crc_result == EXPECTED
{
txt.print(" [OK]")
return false
}
txt.print(" [FAIL] - expected ")
txt.print_uwhex(EXPECTED, true)
return true
}
sub CRC16(^^ubyte data, uword length) -> uword {
; CRC-16/XMODEM
uword crc
repeat length
{
crc ^= mkword(@(data),0) ; currently there's no easy way to affect only the MSB of the variable
repeat 8
{
crc <<=1
if_cs
crc ^= $1021
}
data++
}
return crc
}
}

72
benchmark-c/crc32.p8
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@@ -1,72 +0,0 @@
%import textio
%import floats
; note: Prog8 has a complete CRC32 routine in its library: math.crc32
main {
sub start() {
txt.lowercase()
test.benchmark_name()
cbm.SETTIM(0,0,0)
test.benchmark()
txt.print_f(floats.time() / 60)
txt.print(" seconds\n")
void test.benchmark_check()
repeat {}
}
}
test {
const long EXPECTED = $e1fa84c6
long crc_result
sub benchmark_name()
{
txt.print("crc32.p8\n")
txt.print("Calculates the CRC32 of the C64 Kernal\n")
}
sub benchmark()
{
crc_result = CRC32($e000, $2000)
}
sub benchmark_check() -> bool
{
txt.print("CRC=")
txt.print_ulhex(crc_result, true)
if crc_result == EXPECTED
{
txt.print(" [OK]")
return false
}
txt.print(" [FAIL] - expected ")
txt.print_ulhex(EXPECTED, true)
return true
}
sub CRC32(^^ubyte data, uword length) -> long {
; CRC-32/CKSUM
long crc
repeat length
{
crc ^= (@(data) as long)<<24 ; currently there's no easy way to affect only the MSB of the variable
repeat 8
{
crc <<=1
if_cs
crc ^= $04c11db7
}
data++
}
crc ^= $ffffffff
return crc
}
}

72
benchmark-c/crc8.p8
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@@ -1,72 +0,0 @@
%import textio
%import floats
main {
sub start() {
txt.lowercase()
test.benchmark_name()
cbm.SETTIM(0,0,0)
test.benchmark()
txt.print_f(floats.time() / 60)
txt.print(" seconds\n")
void test.benchmark_check()
repeat {}
}
}
test {
sub benchmark_name()
{
txt.print("crc8.p8\n")
txt.print("Calculates the CRC8 of the C64 Kernal\n")
}
sub benchmark()
{
crc_result = CRC8($e000, $2000)
}
sub benchmark_check() -> bool
{
txt.print("CRC=")
txt.print_ubhex(crc_result, true)
if crc_result == EXPECTED
{
txt.print(" [OK]")
return false
}
txt.print(" [FAIL] - expected ")
txt.print_ubhex(EXPECTED, true)
return true
}
const ubyte EXPECTED = $a2
ubyte crc_result
sub CRC8(^^ubyte data, uword length) -> ubyte
{
; CRC-8/GSM-A
ubyte crc
repeat length
{
crc ^= @(data)
repeat 8
{
if (crc & $80) != 0
crc = (crc << 1) ^ $1d
else
crc <<= 1
}
data++
}
return crc
}
}

93
benchmark-c/pow.p8
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@@ -1,93 +0,0 @@
%import textio
%import floats
main {
sub start() {
txt.lowercase()
test.benchmark_name()
cbm.SETTIM(0,0,0)
test.benchmark()
txt.print_f(floats.time() / 60)
txt.print(" seconds\n")
void test.benchmark_check()
repeat {}
}
}
test {
const ubyte N_ITER = 10
const ubyte SIZE = 32
float[SIZE] array
const float expected = 3614007361536.000000
const float epsilon = 10000000
float res
sub benchmark_name()
{
txt.print("pow.p8\n")
txt.print("Calculates floating point exponential (")
txt.print_uw(N_ITER)
txt.print(" iterations)\n")
}
sub benchmark()
{
ubyte i,j
res = 0
for j in 0 to SIZE-1 {
array[j]=0
}
for i in 0 to N_ITER-1 {
for j in 0 to SIZE-1 {
array[j] += testpow(2.5 / ((i + 1) as float), j)
}
}
for j in 0 to SIZE-1 {
res += array[j]
}
}
sub testpow(float x, ubyte y) -> float
{
float tmp = x
if y == 0
return 1
repeat y-1
tmp *= x
return tmp
}
sub benchmark_check() -> bool
{
txt.print("res = ")
txt.print_f(res)
float diff = expected - res;
txt.print("\nexpected = ")
txt.print_f(expected)
txt.print("\nepsilon = ")
txt.print_f(epsilon)
txt.print("\ndiff = ")
txt.print_f(diff)
if (diff < epsilon and diff > -epsilon)
{
txt.print(" [OK]\n")
return false
}
txt.print("[FAIL]\n")
return true
}
}

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85
benchmark-c/sieve.p8
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@@ -1,85 +0,0 @@
%import textio
%import floats
main {
sub start() {
txt.lowercase()
test.benchmark_name()
cbm.SETTIM(0,0,0)
test.benchmark()
txt.print_f(floats.time() / 60)
txt.print(" seconds\n")
void test.benchmark_check()
repeat {}
}
}
test {
const ubyte N_ITER = 10
const uword SIZE = 8191
const uword EXPECTED = 1900
uword prime_count
^^bool @zp flags = memory("flags", SIZE, 0)
sub benchmark_name()
{
txt.print("sieve.c\n")
txt.print("Calculates the primes from 1 to ")
txt.print_uw(SIZE * 2 + 2)
txt.print(" (")
txt.print_ub(N_ITER)
txt.print(" iterations)\n")
}
sub benchmark()
{
repeat N_ITER
prime_count = sieve(SIZE)
}
sub benchmark_check() -> bool
{
txt.print("count=")
txt.print_uw(prime_count)
if prime_count == EXPECTED
{
txt.print(" [OK]")
return false
}
txt.print(" [FAIL] - expected ")
txt.print_uw(EXPECTED)
return true
}
sub sieve(uword size) -> uword
{
uword i, prime, k
uword count = 1
for i in 0 to size-1
flags[i] = true
for i in 0 to size-1
{
if flags[i]
{
prime = i + i + 3
k = i + prime
while k < size
{
flags[k] = false
k += prime
}
count++
}
}
return count
}
}

107
benchmark-c/sieve_bit.p8
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@@ -1,107 +0,0 @@
%import textio
%import floats
main {
sub start() {
txt.lowercase()
test.benchmark_name()
cbm.SETTIM(0,0,0)
test.benchmark()
txt.print_f(floats.time() / 60)
txt.print(" seconds\n")
void test.benchmark_check()
repeat {}
}
}
test {
const ubyte N_ITER = 4
const uword SIZE = 16000
const uword EXPECTED = 3432
uword prime_count
^^ubyte @zp flags = memory("flags", SIZE/8+1, 0)
sub benchmark_name()
{
txt.print("sieve_bit.p8\n")
txt.print("Calculates the primes from 1 to ")
txt.print_uw(SIZE * 2 + 2)
txt.print(" (")
txt.print_ub(N_ITER)
txt.print(" iterations)\n")
}
sub benchmark()
{
repeat N_ITER
prime_count = sieve(SIZE)
}
sub benchmark_check() -> bool
{
txt.print("count=")
txt.print_uw(prime_count)
if prime_count == EXPECTED
{
txt.print(" [OK]")
return false
}
txt.print(" [FAIL] - expected ")
txt.print_uw(EXPECTED)
return true
}
ubyte[] bitv = [
$01,
$02,
$04,
$08,
$10,
$20,
$40,
$80
]
sub check_flag(uword idx) -> bool
{
return flags[idx / 8] & bitv[lsb(idx) & 7] != 0
}
sub clear_flag(uword idx)
{
flags[idx / 8] &= ~(bitv[lsb(idx) & 7])
}
sub sieve(uword size) -> uword
{
uword i, prime, k
uword count=1
for i in 0 to (size / 8)
flags[i] = $ff
for i in 0 to size-1
{
if check_flag(i)
{
prime = i + i + 3
k = i + prime;
while k < size
{
clear_flag(k)
k += prime
}
count++
}
}
return count
}
}

10
benchmark-program/Makefile
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@@ -1,10 +0,0 @@
.PHONY: clean run
run:
prog8c -target cx16 benchmark.p8
x16emu -run -prg benchmark.prg -warp
clean:
rm -f *.prg *.PRG *.asm *.vice-* *.BIN *.PAL *.zip *.7z

109
benchmark-program/b_3d.p8
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@@ -1,109 +0,0 @@
%import textio
%import math
rotate3d {
const ubyte WIDTH = 40
const ubyte HEIGHT = 30
sub benchmark(uword max_time) -> uword {
uword anglex
uword angley
uword anglez
uword frames
txt.nl()
cbm.SETTIM(0,0,0)
while cbm.RDTIM16()<max_time {
matrix_math.rotate_vertices(msb(anglex), msb(angley), msb(anglez))
draw_edges() ; doesn't really draw anything in the benchmark, but does do the screen calculations
anglex+=500
angley+=215
anglez+=453
frames++
}
return frames
}
sub draw_edges() {
; plot the points of the 3d cube
; first the points on the back, then the points on the front (painter algorithm)
ubyte @zp i
word @zp rz
word @zp persp
byte @shared sx
byte @shared sy
for i in 0 to len(matrix_math.xcoor)-1 {
rz = matrix_math.rotatedz[i]
if rz >= 10 {
persp = 600 + rz/64
sx = matrix_math.rotatedx[i] / persp as byte + WIDTH/2
sy = matrix_math.rotatedy[i] / persp as byte + HEIGHT/2
;; txt.setcc(sx as ubyte, sy as ubyte, 46, 7)
}
}
for i in 0 to len(matrix_math.xcoor)-1 {
rz = matrix_math.rotatedz[i]
if rz < 10 {
persp = 600 + rz/64
sx = matrix_math.rotatedx[i] / persp as byte + WIDTH/2
sy = matrix_math.rotatedy[i] / persp as byte + HEIGHT/2
;; txt.setcc(sx as ubyte, sy as ubyte, 81, 7)
}
}
txt.chrout('.')
}
}
matrix_math {
; vertices
word[] xcoor = [ -40, -40, -40, -40, 40, 40, 40, 40 ]
word[] ycoor = [ -40, -40, 40, 40, -40, -40, 40, 40 ]
word[] zcoor = [ -40, 40, -40, 40, -40, 40, -40, 40 ]
; storage for rotated coordinates
word[len(xcoor)] rotatedx
word[len(ycoor)] rotatedy
word[len(zcoor)] rotatedz
sub rotate_vertices(ubyte ax, ubyte ay, ubyte az) {
; rotate around origin (0,0,0)
; set up the 3d rotation matrix values
word wcosa = math.cos8(ax)
word wsina = math.sin8(ax)
word wcosb = math.cos8(ay)
word wsinb = math.sin8(ay)
word wcosc = math.cos8(az)
word wsinc = math.sin8(az)
word wcosa_sinb = wcosa*wsinb / 128
word wsina_sinb = wsina*wsinb / 128
word Axx = wcosa*wcosb / 128
word Axy = (wcosa_sinb*wsinc - wsina*wcosc) / 128
word Axz = (wcosa_sinb*wcosc + wsina*wsinc) / 128
word Ayx = wsina*wcosb / 128
word Ayy = (wsina_sinb*wsinc + wcosa*wcosc) / 128
word Ayz = (wsina_sinb*wcosc - wcosa*wsinc) / 128
word Azx = -wsinb
word Azy = wcosb*wsinc / 128
word Azz = wcosb*wcosc / 128
ubyte @zp i
for i in 0 to len(xcoor)-1 {
; don't normalize by dividing by 128, instead keep some precision for perspective calc later
rotatedx[i] = Axx*xcoor[i] + Axy*ycoor[i] + Axz*zcoor[i]
rotatedy[i] = Ayx*xcoor[i] + Ayy*ycoor[i] + Ayz*zcoor[i]
rotatedz[i] = Azx*xcoor[i] + Azy*ycoor[i] + Azz*zcoor[i]
}
}
}

89
benchmark-program/b_adpcm.p8
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@@ -1,89 +0,0 @@
adpcm {
sub decode_benchmark(uword max_time) -> uword {
uword num_blocks
txt.nl()
cbm.SETTIM(0,0,0)
while cbm.RDTIM16()<max_time {
adpcm.init(0,0)
uword @requirezp nibbles_ptr = $a000 ; for benchmark purposes, the exact nibbles don't really matter, so we just take the basic ROM as input
repeat 252/2 {
unroll 2 {
ubyte @zp nibble = @(nibbles_ptr)
adpcm.decode_nibble(nibble & 15) ; first word (note: upper nibble needs to be zero!)
adpcm.decode_nibble(nibble>>4) ; second word (note: upper nibble is zero, after the shifts.)
nibbles_ptr++
}
}
num_blocks++
txt.chrout('.')
}
return num_blocks
}
; IMA ADPCM decoder. Supports mono and stereo streams.
byte[] t_index = [ -1, -1, -1, -1, 2, 4, 6, 8, -1, -1, -1, -1, 2, 4, 6, 8]
uword[] t_step = [
7, 8, 9, 10, 11, 12, 13, 14,
16, 17, 19, 21, 23, 25, 28, 31,
34, 37, 41, 45, 50, 55, 60, 66,
73, 80, 88, 97, 107, 118, 130, 143,
157, 173, 190, 209, 230, 253, 279, 307,
337, 371, 408, 449, 494, 544, 598, 658,
724, 796, 876, 963, 1060, 1166, 1282, 1411,
1552, 1707, 1878, 2066, 2272, 2499, 2749, 3024,
3327, 3660, 4026, 4428, 4871, 5358, 5894, 6484,
7132, 7845, 8630, 9493, 10442, 11487, 12635, 13899,
15289, 16818, 18500, 20350, 22385, 24623, 27086, 29794,
32767]
uword @requirezp predict ; decoded 16 bit pcm sample for first channel.
ubyte @requirezp index
uword @requirezp pstep
sub init(uword startPredict, ubyte startIndex) {
; initialize first decoding channel.
predict = startPredict
index = startIndex
pstep = t_step[index]
}
sub decode_nibble(ubyte @zp nibble) {
; Decoder for a single nibble for the first channel. (value of 'nibble' needs to be strictly 0-15 !)
; This is the hotspot of the decoder algorithm!
; Note that the generated assembly from this is pretty efficient,
; rewriting it by hand in asm seems to improve it only ~10%.
cx16.r0s = 0 ; difference
if nibble & %0100 !=0
cx16.r0s += pstep
pstep >>= 1
if nibble & %0010 !=0
cx16.r0s += pstep
pstep >>= 1
if nibble & %0001 !=0
cx16.r0s += pstep
pstep >>= 1
cx16.r0s += pstep
if nibble & %1000 !=0
predict -= cx16.r0
else
predict += cx16.r0
; NOTE: the original C/Python code uses a 32 bits prediction value and clips it to a 16 bit word
; but for speed reasons we only work with 16 bit words here all the time (with possible clipping error)
; if predicted > 32767:
; predicted = 32767
; elif predicted < -32767:
; predicted = - 32767
index += t_index[nibble] as ubyte
if_neg
index = 0
else if index >= len(t_step)-1
index = len(t_step)-1
pstep = t_step[index]
}
}

234
benchmark-program/b_btree.p8
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@@ -1,234 +0,0 @@
; Binary Search Tree.
; It's a simple implementation for test/demonstration purposes of the pointer support;
; no balancing is done and memory is not freed when elements are removed.
%import textio
btree {
sub benchmark(uword max_time) -> uword {
txt.nl()
cbm.SETTIM(0,0,0)
uword score
while cbm.RDTIM16() < max_time {
bench_operations()
txt.chrout('.')
score++
}
txt.nl()
return score
}
sub bench_operations() {
arena.freeall()
btree.root = 0
for cx16.r0 in [321, 719, 194, 550, 187, 203, 520, 562, 221, 676, 97, 852, 273, 326, 589, 606, 275, 794, 63, 716]
btree.add(cx16.r0)
cx16.r0L = btree.size()
btree.process_tree_inorder()
btree.process_tree_preorder()
void btree.contains(203)
void btree.contains(204)
void btree.contains(605)
void btree.contains(606)
btree.remove(9999)
btree.remove(97)
btree.remove(187)
btree.remove(203)
btree.remove(275)
btree.remove(321)
btree.remove(520)
btree.remove(562)
btree.remove(606)
btree.remove(719)
btree.remove(794)
cx16.r0L = btree.size()
btree.process_tree_inorder()
btree.process_tree_preorder()
}
struct Node {
^^Node left
^^Node right
uword value
}
^^Node root = 0
sub add(uword value) {
^^Node node = arena.alloc(sizeof(Node))
node.value = value
node.left = node.right = 0
if root==0
root=node
else {
^^Node parent = root
repeat {
if parent.value >= value {
if parent.left!=0
parent = parent.left
else {
parent.left = node
return
}
} else {
if parent.right!=0
parent = parent.right
else {
parent.right = node
return
}
}
}
}
}
sub contains(uword value) -> bool {
^^Node r = root
while r!=0 {
if r.value==value
return true
if r.value>value
r = r.left
else
r = r.right
}
return false
}
sub size() -> ubyte {
ubyte count
if root!=0
count_node(root)
return count
sub count_node(^^Node r) {
count++
if r.left!=0 {
sys.pushw(r)
count_node(r.left)
r = sys.popw()
}
if r.right!=0 {
sys.pushw(r)
count_node(r.right)
r = sys.popw()
}
}
}
sub remove(uword value) {
; note: we don't deallocate the memory from the node, for simplicity sake
^^Node n = root
^^Node parent = 0
while n!=0 {
if n.value==value {
if n.left==0
replacechild(parent, n, n.right)
else if n.right==0
replacechild(parent, n, n.left)
else {
; Both left & right subtrees are present.
; N = node to delete.
; Find N's successor S. (N's right subtree's minimum element)
; Attach N's left subtree to S.left (S doesn't have a left child)
; Attach N's right subtree to Parent in place of N.
^^Node successor = find_successor(n)
successor.left = n.left
replacechild(parent, n, n.right)
}
return
}
parent = n
if n.value>value
n = n.left
else
n = n.right
}
sub find_successor(^^Node p) -> ^^Node {
^^Node succ = p
p = p.right
while p!=0 {
succ = p
p = p.left
}
return succ
}
sub replacechild(^^Node p, ^^Node child, ^^Node newchild) {
if p.left==child
p.left = newchild
else
p.right = newchild
}
}
sub process_tree_inorder() {
if root!=0
process_tree(root)
sub process_tree(^^Node r) {
if r.left!=0 {
sys.pushw(r)
process_tree(r.left)
r = sys.popw()
}
cx16.r0 = r.value
if r.right!=0 {
sys.pushw(r)
process_tree(r.right)
r = sys.popw()
}
}
}
sub process_tree_preorder() {
if root!=0
process_tree(root,0)
sub process_tree(^^Node r, ubyte depth) {
cx16.r0 = r.value
if r.left!=0 {
sys.pushw(r)
sys.push(depth)
process_tree(r.left, depth+1)
depth = sys.pop()
r = sys.popw()
}
if r.right!=0 {
sys.pushw(r)
sys.push(depth)
process_tree(r.right, depth+1)
depth = sys.pop()
r = sys.popw()
}
}
}
}
arena {
; extremely trivial arena allocator (that never frees)
uword buffer = memory("arena", 2000, 0)
uword next = buffer
sub alloc(ubyte size) -> uword {
defer next += size
return next
}
sub freeall() {
next = buffer
}
}

111
benchmark-program/b_circles.p8
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@@ -1,111 +0,0 @@
%import gfx_lores
%import math
circles {
const ubyte MAX_NUM_CIRCLES = 80
const ubyte GROWTH_RATE = 4
uword[MAX_NUM_CIRCLES] circle_x
uword[MAX_NUM_CIRCLES] circle_y
ubyte[MAX_NUM_CIRCLES] circle_radius
ubyte color
uword total_num_circles
sub draw(bool use_kernal, uword max_time) -> uword {
if use_kernal
cx16.set_screen_mode(128)
else
gfx_lores.graphics_mode()
math.rndseed(12345,6789)
cbm.SETTIM(0,0,0)
total_num_circles = 0
color = 16
while cbm.RDTIM16()<max_time {
if use_kernal {
cx16.GRAPH_set_colors(0,0,0)
cx16.GRAPH_clear()
}
else
gfx_lores.clear_screen(0)
total_num_circles += draw_circles(use_kernal, max_time)
}
if use_kernal
cx16.set_screen_mode(3)
else {
gfx_lores.text_mode()
}
return total_num_circles
}
sub draw_circles(bool use_kernal, uword max_time) -> uword {
uword @zp x
uword @zp y
ubyte @zp radius
ubyte num_circles
while num_circles<MAX_NUM_CIRCLES and cbm.RDTIM16()<max_time {
x = math.rndw() % 320
y = math.rndw() % 240
radius = GROWTH_RATE
if not_colliding() {
while not_edge() and not_colliding() {
radius += GROWTH_RATE
}
radius -= GROWTH_RATE
if radius>0 {
color++
if color==0
color=16
if use_kernal {
cx16.GRAPH_set_colors(color, 255-color, 0)
cx16.GRAPH_draw_oval(x-radius, y-radius, radius*2, radius*2, true)
}
else
gfx_lores.disc(x, y as ubyte, radius, color)
circle_x[num_circles] = x
circle_y[num_circles] = y
circle_radius[num_circles] = radius
num_circles++
}
}
}
return num_circles
sub not_colliding() -> bool {
if num_circles==0
return true
ubyte @zp c
for c in 0 to num_circles-1 {
if distance(c) < (radius as uword) + circle_radius[c]
return false
}
return true
}
sub distance(ubyte cix) -> uword {
word dx = x as word - circle_x[cix]
word dy = y as word - circle_y[cix]
uword sqx = dx*dx as uword
uword sqy = dy*dy as uword
return sqrt(sqx + sqy)
}
sub not_edge() -> bool {
if x as word - radius < 0
return false
if x + radius >= 320
return false
if y as word - radius < 0
return false
if y + radius >= 240
return false
return true
}
}
}

123
benchmark-program/b_life.p8
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@@ -1,123 +0,0 @@
; conway's game of life.
%import math
%import textio
life {
const ubyte WIDTH = 40
const ubyte HEIGHT = 30
const uword STRIDE = $0002+WIDTH
uword world1 = memory("world1", (WIDTH+2)*(HEIGHT+2), 0)
uword world2 = memory("world2", (WIDTH+2)*(HEIGHT+2), 0)
uword @requirezp active_world = world1
sub benchmark(uword max_time) -> uword {
txt.clear_screen()
sys.memset(world1, (WIDTH+2)*(HEIGHT+2), 0)
sys.memset(world2, (WIDTH+2)*(HEIGHT+2), 0)
set_start_gen()
uword gen
cbm.SETTIM(0,0,0)
while cbm.RDTIM16()<max_time {
next_gen()
gen++
}
return gen
}
sub set_start_gen() {
; some way to set a custom start generation:
; str start_gen = " " +
; " " +
; " " +
; " ** " +
; " * * " +
; " * " +
; " * * " +
; " ****** " +
; " " +
; " " +
; " " +
; " " +
; " " +
; " " +
; " " +
; " "
;
; for y in 0 to 15 {
; for x in 0 to 15 {
; if start_gen[y*16 + x]=='*'
; active_world[offset + x] = 1
; }
; offset += STRIDE
; }
; randomize whole world
math.rndseed(12345,9999)
uword offset = STRIDE+1
ubyte x
ubyte y
for y in 0 to HEIGHT-1 {
for x in 0 to WIDTH-1 {
active_world[offset+x] = math.rnd() & 1
}
offset += STRIDE
}
}
sub next_gen() {
const ubyte DXOFFSET = 0
const ubyte DYOFFSET = 0
ubyte[2] cell_chars = [sc:' ', sc:'●']
uword @requirezp new_world = world1
if active_world == world1
new_world = world2
; To avoid re-calculating word index lookups into the new- and active world arrays,
; we calculate the required pointer values upfront.
; Inside the loop we can use ptr+x just fine (results in efficient LDA (ptr),Y instruction because x is a byte type),
; and for each row we simply add the stride to the pointer.
; It's more readable to use active_world[offset] etc, but offset is a word value, and this produces
; inefficient assembly code because we can't use a register indexed mode in this case. Costly inside a loop.
uword @requirezp new_world_ptr = new_world + STRIDE+1-DXOFFSET
uword @requirezp active_world_ptr = active_world + STRIDE+1-DXOFFSET
ubyte x
ubyte y
for y in DYOFFSET to HEIGHT+DYOFFSET-1 {
cx16.vaddr_autoincr(1, $b000 + 256*y, 0, 2) ; allows us to use simple Vera data byte assigns later instead of setchr() calls
for x in DXOFFSET to WIDTH+DXOFFSET-1 {
; count the living neighbors
ubyte cell = @(active_world_ptr + x)
uword @requirezp ptr = active_world_ptr + x - STRIDE - 1
ubyte neighbors = @(ptr) + @(ptr+1) + @(ptr+2) +
@(ptr+STRIDE) + cell + @(ptr+STRIDE+2) +
@(ptr+STRIDE*2) + @(ptr+STRIDE*2+1) + @(ptr+STRIDE*2+2)
; apply game of life rules
if neighbors==3
cell=1
else if neighbors!=4
cell=0
@(new_world_ptr + x) = cell
; draw new cell
; txt.setchr(x,y,cell_chars[cell])
cx16.VERA_DATA0 = cell_chars[cell]
}
active_world_ptr += STRIDE
new_world_ptr += STRIDE
}
active_world = new_world
}
}

54
benchmark-program/b_mandelbrot.p8
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@@ -1,54 +0,0 @@
%import textio
%import floats
mandelbrot {
const ubyte width = 39
const ubyte height = 29
const ubyte max_iter = 15
sub calc(uword max_time) -> uword {
uword num_pixels
ubyte pixelx
ubyte pixely
txt.home()
cbm.SETTIM(0,0,0)
while cbm.RDTIM16() < max_time {
for pixely in 0 to height-1 {
float yy = (pixely as float)/0.40/height - 1.3
for pixelx in 0 to width-1 {
float xx = (pixelx as float)/0.32/width - 2.2
float xsquared = 0.0
float ysquared = 0.0
float x = 0.0
float y = 0.0
ubyte iter = 0
while iter<max_iter and xsquared+ysquared<4.0 {
y = x*y*2.0 + yy
x = xsquared - ysquared + xx
xsquared = x*x
ysquared = y*y
iter++
}
txt.color2(1, max_iter-iter)
txt.spc()
num_pixels++
if cbm.RDTIM16()>=max_time
goto finished
}
txt.nl()
}
txt.clear_screen()
}
finished:
txt.color2(1, 6)
return num_pixels
}
}

343
benchmark-program/b_maze.p8
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@@ -1,343 +0,0 @@
%import textio
%import math
; Even though prog8 only has support for extremely limited recursion,
; you can write recursive algorithms with a bit of extra work by building your own explicit stack structure.
; This program shows a depth-first maze generation algorithm (1 possible path from start to finish),
; and a depth-first maze solver algorithm, both using a stack to store the path taken.
; Note: this program can be compiled for multiple target systems.
maze {
uword score
sub bench(uword max_time) -> uword {
txt.nl()
score=0
math.rndseed(2345,44332)
cbm.SETTIM(0,0,0)
while cbm.RDTIM16()<max_time {
maze.initialize()
maze.drawStartFinish()
if maze.generate(max_time) {
maze.openpassages()
maze.drawStartFinish()
if maze.solve(max_time) {
maze.drawStartFinish()
} else break
} else break
}
return score
}
const uword screenwidth = 40
const uword screenheight = 30
const ubyte numCellsHoriz = (screenwidth-1) / 2
const ubyte numCellsVert = (screenheight-1) / 2
; maze start and finish cells
const ubyte startCx = 0
const ubyte startCy = 0
const ubyte finishCx = numCellsHoriz-1
const ubyte finishCy = numCellsVert-1
; cell properties
const ubyte STONE = 128
const ubyte WALKED = 64
const ubyte BACKTRACKED = 32
const ubyte UP = 1
const ubyte RIGHT = 2
const ubyte DOWN = 4
const ubyte LEFT = 8
const ubyte WALLCOLOR = 12
const ubyte EMPTYCOLOR = 0
; unfortunately on larger screens (cx16), the number of cells exceeds 256 and doesn't fit in a regular array anymore.
uword cells = memory("cells", numCellsHoriz*numCellsVert, 0)
ubyte[256] cx_stack
ubyte[256] cy_stack
ubyte stackptr
ubyte[4] directionflags = [LEFT,RIGHT,UP,DOWN]
sub generate(uword max_time) -> bool {
ubyte cx = startCx
ubyte cy = startCy
stackptr = 0
@(celladdr(cx,cy)) &= ~STONE
drawCell(cx, cy)
uword cells_to_carve = numCellsHoriz * numCellsVert - 1
while cbm.RDTIM16()<max_time {
carve_restart_after_repath:
ubyte direction = choose_uncarved_direction()
if direction==0 {
;backtrack
stackptr--
if stackptr==255 {
; stack empty.
; repath if we are not done yet. (this is a workaround for the prog8 256 array lenght limit)
if cells_to_carve!=0 {
if repath()
goto carve_restart_after_repath
}
return true
}
cx = cx_stack[stackptr]
cy = cy_stack[stackptr]
} else {
cx_stack[stackptr] = cx
cy_stack[stackptr] = cy
stackptr++
if stackptr==0 {
; stack overflow, we can't track our path any longer.
; repath if we are not done yet. (this is a workaround for the prog8 256 array lenght limit)
if cells_to_carve!=0 {
if repath()
goto carve_restart_after_repath
}
return true
}
@(celladdr(cx,cy)) |= direction
when direction {
UP -> {
cy--
@(celladdr(cx,cy)) |= DOWN
}
RIGHT -> {
cx++
@(celladdr(cx,cy)) |= LEFT
score++
}
DOWN -> {
cy++
@(celladdr(cx,cy)) |= UP
}
LEFT -> {
cx--
@(celladdr(cx,cy)) |= RIGHT
}
}
@(celladdr(cx,cy)) &= ~STONE
cells_to_carve--
drawCell(cx, cy)
}
}
return false
sub repath() -> bool {
; repath: try to find a new start cell with possible directions.
; we limit our number of searches so that the algorith doesn't get stuck
; for too long on bad rng... just accept a few unused cells in that case.
repeat 255 {
do {
cx = math.rnd() % numCellsHoriz
cy = math.rnd() % numCellsVert
} until @(celladdr(cx, cy)) & STONE ==0
if available_uncarved()!=0
return true
}
return false
}
sub available_uncarved() -> ubyte {
ubyte candidates = 0
if cx>0 and @(celladdr(cx-1, cy)) & STONE !=0
candidates |= LEFT
if cx<numCellsHoriz-1 and @(celladdr(cx+1, cy)) & STONE !=0
candidates |= RIGHT
if cy>0 and @(celladdr(cx, cy-1)) & STONE !=0
candidates |= UP
if cy<numCellsVert-1 and @(celladdr(cx, cy+1)) & STONE !=0
candidates |= DOWN
return candidates
}
sub choose_uncarved_direction() -> ubyte {
ubyte candidates = available_uncarved()
if candidates==0
return 0
repeat {
ubyte choice = candidates & directionflags[math.rnd() & 3]
if choice!=0
return choice
}
}
}
sub openpassages() {
; open just a few extra passages, so that multiple routes are possible in theory.
ubyte numpassages
ubyte cx
ubyte cy
do {
do {
cx = math.rnd() % (numCellsHoriz-2) + 1
cy = math.rnd() % (numCellsVert-2) + 1
} until @(celladdr(cx, cy)) & STONE ==0
ubyte direction = directionflags[math.rnd() & 3]
if @(celladdr(cx, cy)) & direction == 0 {
when direction {
LEFT -> {
if @(celladdr(cx-1,cy)) & STONE == 0 {
@(celladdr(cx,cy)) |= LEFT
drawCell(cx,cy)
numpassages++
}
}
RIGHT -> {
if @(celladdr(cx+1,cy)) & STONE == 0 {
@(celladdr(cx,cy)) |= RIGHT
drawCell(cx,cy)
numpassages++
}
}
UP -> {
if @(celladdr(cx,cy-1)) & STONE == 0 {
@(celladdr(cx,cy)) |= UP
drawCell(cx,cy)
numpassages++
}
}
DOWN -> {
if @(celladdr(cx,cy+1)) & STONE == 0 {
@(celladdr(cx,cy)) |= DOWN
drawCell(cx,cy)
numpassages++
}
}
}
}
} until numpassages==10
}
sub solve(uword max_time) -> bool {
ubyte cx = startCx
ubyte cy = startCy
const uword max_path_length = 1024
; the path through the maze can be longer than 256 so doesn't fit in a regular array.... :(
uword pathstack = memory("pathstack", max_path_length, 0)
uword pathstackptr = 0
@(celladdr(cx,cy)) |= WALKED
; txt.setcc(cx*2+1, cy*2+1, 81, 1)
while cbm.RDTIM16()<max_time {
solve_loop:
if cx==finishCx and cy==finishCy {
;txt.home()
txt.print("found! path length: ")
txt.print_uw(pathstackptr)
txt.nl()
return true
}
ubyte cell = @(celladdr(cx,cy))
if cell & UP!=0 and @(celladdr(cx,cy-1)) & (WALKED|BACKTRACKED) ==0 {
@(pathstack + pathstackptr) = UP
;txt.setcc(cx*2+1, cy*2, 81, 3)
cy--
}
else if cell & DOWN !=0 and @(celladdr(cx,cy+1)) & (WALKED|BACKTRACKED) ==0 {
@(pathstack + pathstackptr) = DOWN
;txt.setcc(cx*2+1, cy*2+2, 81, 3)
cy++
}
else if cell & LEFT !=0 and @(celladdr(cx-1,cy)) & (WALKED|BACKTRACKED) ==0 {
@(pathstack + pathstackptr) = LEFT
;txt.setcc(cx*2, cy*2+1, 81, 3)
cx--
}
else if cell & RIGHT !=0 and @(celladdr(cx+1,cy)) & (WALKED|BACKTRACKED) ==0 {
@(pathstack + pathstackptr) = RIGHT
;txt.setcc(cx*2+2, cy*2+1, 81, 3)
cx++
}
else {
; dead end, pop stack
pathstackptr--
if pathstackptr==65535 {
txt.print("no solution?!\n")
return true
}
@(celladdr(cx,cy)) |= BACKTRACKED
;txt.setcc(cx*2+1, cy*2+1, 81, 2)
when @(pathstack + pathstackptr) {
UP -> {
;txt.setcc(cx*2+1, cy*2+2, 81, 9)
cy++
}
DOWN -> {
;txt.setcc(cx*2+1, cy*2, 81, 9)
cy--
}
LEFT -> {
;txt.setcc(cx*2+2, cy*2+1, 81, 9)
cx++
}
RIGHT -> {
;txt.setcc(cx*2, cy*2+1, 81, 9)
cx--
score++
}
}
goto solve_loop
}
pathstackptr++
if pathstackptr==max_path_length {
txt.print("stack overflow, path too long\n")
return true
}
@(celladdr(cx,cy)) |= WALKED
;txt.setcc(cx*2+1, cy*2+1, 81, 1)
}
return false
}
sub celladdr(ubyte cx, ubyte cy) -> uword {
return cells+(numCellsHoriz as uword)*cy+cx
}
sub drawCell(ubyte cx, ubyte cy) {
return
; ubyte x = cx * 2 + 1
; ubyte y = cy * 2 + 1
; ubyte doors = @(celladdr(cx,cy))
; if doors & UP !=0
; txt.setcc(x, y-1, ' ', EMPTYCOLOR)
; if doors & RIGHT !=0
; txt.setcc(x+1, y, ' ', EMPTYCOLOR)
; if doors & DOWN !=0
; txt.setcc(x, y+1, ' ', EMPTYCOLOR)
; if doors & LEFT !=0
; txt.setcc(x-1, y, ' ', EMPTYCOLOR)
; if doors & STONE !=0
; txt.setcc(x, y, 160, WALLCOLOR)
; else
; txt.setcc(x, y, 32, EMPTYCOLOR)
;
; if doors & WALKED !=0
; txt.setcc(x, y, 81, 1)
; if doors & BACKTRACKED !=0
; txt.setcc(x, y, 81, 2)
}
sub initialize() {
sys.memset(cells, numCellsHoriz*numCellsVert, STONE)
; txt.fill_screen(160, WALLCOLOR)
drawStartFinish()
}
sub drawStartFinish() {
; txt.setcc(startCx*2+1,startCy*2+1,sc:'s',5)
; txt.setcc(finishCx*2+1, finishCy*2+1, sc:'f', 13)
}
}

63
benchmark-program/b_queens.p8
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@@ -1,63 +0,0 @@
%import textio
; Recursive N-Queens solver.
; The problem is: find all possible ways to place 8 Queen chess pieces on a chess board, so that none of them attacks any other.
; (this program prints all solutions without taking mirroring and flipping the chess board into account)
; Note: this program can be compiled for multiple target systems.
queens {
const ubyte NUMQUEENS=8
ubyte[NUMQUEENS] board
sub could_place(ubyte row, ubyte col) -> bool {
if row==0
return true
ubyte i
for i in 0 to row-1 {
if board[i]==col or board[i]-i==col-row or board[i]+i==col+row
return false
}
return true
}
uword solution_count
uword maximum_duration
sub place_queen(ubyte row) -> bool {
if row == NUMQUEENS {
solution_count++
txt.chrout('.')
return cbm.RDTIM16()<maximum_duration
}
bool continue_running=true
ubyte col
for col in 0 to NUMQUEENS-1 {
if could_place(row, col) {
board[row] = col
; we need to save the local variables row and col.
sys.push(row)
sys.push(col)
continue_running = place_queen(row + 1)
; restore the local variables after the recursive call.
col = sys.pop()
row = sys.pop()
board[row] = 0
if not continue_running
break
}
}
return continue_running
}
sub bench(uword max_time) -> uword {
solution_count = 0
maximum_duration = max_time
txt.nl()
cbm.SETTIM(0,0,0)
while cbm.RDTIM16() < maximum_duration {
void place_queen(0)
}
return solution_count
}
}

69
benchmark-program/b_sprites.p8
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@@ -1,69 +0,0 @@
%import sprites
%import coroutines
%import math
animsprites {
uword num_iterations
ubyte[64] sx
ubyte[64] sy
ubyte[64] sc
ubyte[64] dx
ubyte[64] dy
uword maximum_duration
sub benchmark(uword max_duration) -> uword {
maximum_duration = max_duration
math.rndseed(1122,9876)
cx16.set_screen_mode(3)
cx16.mouse_config2(1)
sprites.set_mousepointer_hand()
repeat 64
void coroutines.add(animsprite, 0)
cx16.mouse_config2(0)
cbm.SETTIM(0,0,0)
coroutines.run(supervisor)
sprites.reset(0, 64)
return num_iterations
}
sub supervisor() -> bool {
if cbm.RDTIM16() >= maximum_duration {
coroutines.killall()
return false
}
return true
}
sub animsprite() {
num_iterations++
; set up the sprite
ubyte sprnum = coroutines.current()
cx16.r6L, cx16.r7 = sprites.get_data_ptr(0)
sprites.init(sprnum, cx16.r6L, cx16.r7, sprites.SIZE_16, sprites.SIZE_16, sprites.COLORS_256, 0)
sx[sprnum] = math.rnd()
sy[sprnum] = math.rnd()
sc[sprnum] = math.rnd()
dx[sprnum] = if math.rnd()&1 == 1 1 else 255
dy[sprnum] = if math.rnd()&1 == 1 1 else 255
; move the sprite around
while sc[sprnum]!=0 {
animate(sprnum)
void coroutines.yield()
sprnum = coroutines.current()
}
sub animate(ubyte spr) {
defer sc[spr]--
sprites.pos(spr, sx[spr], sy[spr])
sx[spr] += dx[spr]
sy[spr] += dy[spr]
}
; end the task but replace it with a fresh animated sprite task
void coroutines.add(animsprite, 0)
}
}

989
benchmark-program/b_textelite.p8
View File

@@ -1,989 +0,0 @@
%import textio
%import conv
%import strings
textelite {
const ubyte numforLave = 7 ; Lave is 7th generated planet in galaxy one
const ubyte numforZaonce = 129
const ubyte numforDiso = 147
const ubyte numforRiedquat = 46
uword num_commands
sub bench(uword max_time) -> uword {
num_commands = 0
txt.lowercase()
cbm.SETTIM(0,0,0)
while cbm.RDTIM16()<max_time {
reinit()
run_commands(max_time)
}
return num_commands
}
sub reinit() {
;txt.clear_screen()
;txt.print("\n --- TextElite v1.3 ---\n")
txt.print("\nnew game\n")
elite_planet.set_seed(0, 0)
elite_galaxy.travel_to(1, numforLave)
elite_market.init(0) ; Lave's market is seeded with 0
elite_ship.init()
elite_planet.display(false, 0)
input_index = 0
}
sub run_commands(uword max_time) {
while cbm.RDTIM16() < max_time {
str input = "????????"
;txt.print("\nCash: ")
;elite_util.print_10s(elite_ship.cash)
;txt.print("\nCommand (?=help): ")
ubyte num_chars = next_input(input)
;txt.nl()
if num_chars!=0 {
when input[0] {
'q' -> {
bool has_error = false
if elite_galaxy.number != 2 {
txt.print("\nERROR: galaxy is not 2: ")
txt.print_ub(elite_galaxy.number)
txt.nl()
has_error=true
}
if elite_planet.number != 164 {
txt.print("\nERROR: planet is not 164: ")
txt.print_ub(elite_planet.number)
txt.nl()
has_error=true
}
if elite_planet.x != 116 {
txt.print("\nERROR: planet.x is not 116: ")
txt.print_ub(elite_planet.x)
txt.nl()
has_error=true
}
if elite_planet.y != 201 {
txt.print("\nERROR: planet.y is not 201: ")
txt.print_ub(elite_planet.y)
txt.nl()
has_error=true
}
if "ribeen" != elite_planet.name {
txt.print("\nERROR: planet.name is not 'ribeen': ")
txt.print(elite_planet.name)
txt.nl()
has_error=true
}
if elite_ship.cash != 1212 {
txt.print("\nERROR: cash is not 1212: ")
txt.print_uw(elite_ship.cash)
txt.nl()
has_error=true
}
if elite_ship.fuel != 50 {
txt.print("\nERROR: fuel is not 50:")
txt.print_ub(elite_ship.fuel)
txt.nl()
has_error=true
}
if elite_ship.cargohold[0] != 3 {
txt.print("\nERROR: food is not 3:")
txt.print_ub(elite_ship.cargohold[0])
txt.nl()
has_error=true
}
if elite_ship.cargohold[1] != 0 {
txt.print("\nERROR: textiles is not 0:")
txt.print_ub(elite_ship.cargohold[1])
txt.nl()
has_error=true
}
if has_error
sys.exit(1)
return
}
'b' -> elite_trader.do_buy()
's' -> elite_trader.do_sell()
'f' -> elite_trader.do_fuel()
'j' -> elite_trader.do_jump()
't' -> elite_trader.do_teleport()
'g' -> elite_trader.do_next_galaxy()
'i' -> elite_trader.do_info()
'm' -> {
if input[1]=='a' and input[2]=='p'
elite_trader.do_map()
else
elite_trader.do_show_market()
}
'l' -> elite_trader.do_local()
'c' -> elite_trader.do_cash()
'h' -> elite_trader.do_hold()
}
num_commands++
}
}
}
str[] inputs = [
"i",
"diso",
"i",
"lave",
"m",
"b",
"food",
"15",
"map",
"g",
"map",
"l",
"j",
"zao",
"s",
"food",
"12",
"tele",
"quti",
"tele",
"aro",
"i",
"diso",
"i",
"lave",
"i",
"zao",
"galhyp",
"fuel",
"20",
"j",
"rib",
"i",
"rib",
"i",
"tiri",
"q",
0
]
ubyte input_index
sub next_input(str buffer) -> ubyte {
input_index++
return strings.copy(inputs[input_index], buffer)
}
}
elite_trader {
str input = "??????????"
ubyte num_chars
sub do_jump() {
;txt.print("\nJump to what system? ")
jump_to_system()
}
sub do_teleport() {
;txt.print("\nCheat! Teleport to what system? ")
ubyte fuel = elite_ship.fuel
elite_ship.fuel = 255
jump_to_system()
elite_ship.fuel = fuel
}
sub jump_to_system() {
void textelite.next_input(input)
ubyte current_planet = elite_planet.number
ubyte x = elite_planet.x
ubyte y = elite_planet.y
if elite_galaxy.search_closest_planet(input) {
ubyte distance = elite_planet.distance(x, y)
if distance <= elite_ship.fuel {
elite_galaxy.init_market_for_planet()
elite_ship.fuel -= distance
;txt.print("\n\nHyperspace jump! Arrived at:\n")
elite_planet.display(true,0 )
return
}
;txt.print("\nInsufficient fuel\n")
} else {
;txt.print(" Not found!\n")
}
elite_galaxy.travel_to(elite_galaxy.number, current_planet)
}
sub do_buy() {
;txt.print("\nBuy what commodity? ")
str commodity = "???????????????"
void textelite.next_input(commodity)
ubyte ci = elite_market.match(commodity)
if ci & 128 !=0 {
txt.print("Unknown\n")
} else {
;txt.print("\nHow much? ")
void textelite.next_input(input)
ubyte amount = conv.str2ubyte(input)
if elite_market.current_quantity[ci] < amount {
txt.print(" Insufficient supply!\n")
} else {
uword price = elite_market.current_price[ci] * amount
;txt.print(" Total price: ")
;elite_util.print_10s(price)
if price > elite_ship.cash {
txt.print(" Not enough cash!\n")
} else {
elite_ship.cash -= price
elite_ship.cargohold[ci] += amount
elite_market.current_quantity[ci] -= amount
}
}
}
}
sub do_sell() {
;txt.print("\nSell what commodity? ")
str commodity = "???????????????"
void textelite.next_input(commodity)
ubyte ci = elite_market.match(commodity)
if ci & 128 !=0 {
txt.print("Unknown\n")
} else {
;txt.print("\nHow much? ")
void textelite.next_input(input)
ubyte amount = conv.str2ubyte(input)
if elite_ship.cargohold[ci] < amount {
txt.print(" Insufficient supply!\n")
} else {
uword price = elite_market.current_price[ci] * amount
;txt.print(" Total price: ")
;elite_util.print_10s(price)
elite_ship.cash += price
elite_ship.cargohold[ci] -= amount
elite_market.current_quantity[ci] += amount
}
}
}
sub do_fuel() {
;txt.print("\nBuy fuel. Amount? ")
void textelite.next_input(input)
ubyte buy_fuel = 10*conv.str2ubyte(input)
ubyte max_fuel = elite_ship.Max_fuel - elite_ship.fuel
if buy_fuel > max_fuel
buy_fuel = max_fuel
uword price = buy_fuel as uword * elite_ship.Fuel_cost
if price > elite_ship.cash {
txt.print("Not enough cash!\n")
} else {
elite_ship.cash -= price
elite_ship.fuel += buy_fuel
}
}
sub do_cash() {
;txt.print("\nCheat! Set cash amount: ")
void textelite.next_input(input)
elite_ship.cash = conv.str2uword(input)
}
sub do_hold() {
;txt.print("\nCheat! Set cargohold size: ")
void textelite.next_input(input)
elite_ship.Max_cargo = conv.str2ubyte(input)
}
sub do_next_galaxy() {
txt.print("\n>>>>> Galaxy Hyperjump!\n")
elite_galaxy.travel_to(elite_galaxy.number+1, elite_planet.number)
elite_planet.display(false, 0)
}
sub do_info() {
;txt.print("\nSystem name (empty=current): ")
num_chars = textelite.next_input(input)
if num_chars!=0 {
ubyte current_planet = elite_planet.number
ubyte x = elite_planet.x
ubyte y = elite_planet.y
if elite_galaxy.search_closest_planet(input) {
ubyte distance = elite_planet.distance(x, y)
elite_planet.display(false, distance)
} else {
;txt.print(" Not found!")
}
elite_galaxy.travel_to(elite_galaxy.number, current_planet)
} else {
elite_planet.display(false, 0)
}
}
sub do_local() {
elite_galaxy.local_area()
}
sub do_map() {
;txt.print("\n(l)ocal or (g)alaxy starmap? ")
num_chars = textelite.next_input(input)
if num_chars!=0 {
elite_galaxy.starmap(input[0]=='l')
}
}
sub do_show_market() {
elite_market.display()
;txt.print("\nFuel: ")
;elite_util.print_10s(elite_ship.fuel)
;txt.print(" Cargohold space: ")
;txt.print_ub(elite_ship.cargo_free())
;txt.print("t\n")
}
}
elite_ship {
const ubyte Max_fuel = 70
const ubyte Fuel_cost = 2
ubyte Max_cargo = 20
ubyte fuel
uword cash
ubyte[17] cargohold
sub init() {
sys.memset(cargohold, len(cargohold), 0)
fuel = Max_fuel
cash = 1000
}
}
elite_market {
ubyte[17] baseprices = [$13, $14, $41, $28, $53, $C4, $EB, $9A, $75, $4E, $7C, $B0, $20, $61, $AB, $2D, $35]
byte[17] gradients = [-$02, -$01, -$03, -$05, -$05, $08, $1D, $0E, $06, $01, $0d, -$09, -$01, -$01, -$02, -$01, $0F]
ubyte[17] basequants = [$06, $0A, $02, $E2, $FB, $36, $08, $38, $28, $11, $1D, $DC, $35, $42, $37, $FA, $C0]
ubyte[17] maskbytes = [$01, $03, $07, $1F, $0F, $03, $78, $03, $07, $1F, $07, $3F, $03, $07, $1F, $0F, $07]
str[17] names = ["Food", "Textiles", "Radioactives", "Slaves", "Liquor/Wines", "Luxuries", "Narcotics", "Computers",
"Machinery", "Alloys", "Firearms", "Furs", "Minerals", "Gold", "Platinum", "Gem-Stones", "Alien Items"]
ubyte[17] current_quantity
uword[17] current_price
sub init(ubyte fluct) {
; Prices and availabilities are influenced by the planet's economy type
; (0-7) and a random "fluctuation" byte that was kept within the saved
; commander position to keep the market prices constant over gamesaves.
; Availabilities must be saved with the game since the player alters them
; by buying (and selling(?))
;
; Almost all commands are one byte only and overflow "errors" are
; extremely frequent and exploited.
;
; Trade Item prices are held internally in a single byte=true value/4.
; The decimal point in prices is introduced only when printing them.
; Internally, all prices are integers.
; The player's cash is held in four bytes.
ubyte ci
for ci in 0 to len(names)-1 {
word product
byte changing
product = elite_planet.economy as word * gradients[ci]
changing = fluct & maskbytes[ci] as byte
ubyte q = (basequants[ci] as word + changing - product) as ubyte
if q & $80 !=0
q = 0 ; clip to positive 8-bit
current_quantity[ci] = q & $3f
q = (baseprices[ci] + changing + product) as ubyte
current_price[ci] = q * $0004
}
current_quantity[16] = 0 ; force nonavailability of Alien Items
}
sub display() {
return
; ubyte ci
; txt.nl()
; elite_planet.print_name_uppercase()
; txt.print(" trade market:\n COMMODITY / PRICE / AVAIL / IN HOLD\n")
; for ci in 0 to len(names)-1 {
; elite_util.print_right(13, names[ci])
; txt.print(" ")
; elite_util.print_10s(current_price[ci])
; txt.column(24)
; txt.print_ub(current_quantity[ci])
; txt.chrout(' ')
; when units[ci] {
; 0 -> txt.chrout('t')
; 1 -> txt.print("kg")
; 2 -> txt.chrout('g')
; }
; txt.column(32)
; txt.print_ub(elite_ship.cargohold[ci])
; txt.nl()
; }
}
sub match(uword nameptr) -> ubyte {
ubyte ci
for ci in 0 to len(names)-1 {
if elite_util.prefix_matches(nameptr, names[ci])
return ci
}
return 255
}
}
elite_galaxy {
const uword GALSIZE = 256
const uword base0 = $5A4A ; seeds for the first galaxy
const uword base1 = $0248
const uword base2 = $B753
str pn_pairs = "..lexegezacebisousesarmaindirea.eratenberalavetiedorquanteisrion"
ubyte number
uword[3] seed
sub init(ubyte galaxynum) {
number = 1
elite_planet.number = 255
seed[0] = base0
seed[1] = base1
seed[2] = base2
repeat galaxynum-1 {
nextgalaxy()
}
}
sub nextgalaxy() {
textelite.num_commands++
seed[0] = twist(seed[0])
seed[1] = twist(seed[1])
seed[2] = twist(seed[2])
number++
if number==9
number = 1
}
sub travel_to(ubyte galaxynum, ubyte system) {
init(galaxynum)
generate_next_planet() ; always at least planet 0 (separate to avoid repeat ubyte overflow)
repeat system {
generate_next_planet()
textelite.num_commands++
}
elite_planet.name = make_current_planet_name()
init_market_for_planet()
}
sub init_market_for_planet() {
elite_market.init(lsb(seed[0])+msb(seed[2]))
}
sub search_closest_planet(uword nameptr) -> bool {
textelite.num_commands++
ubyte x = elite_planet.x
ubyte y = elite_planet.y
ubyte current_planet_num = elite_planet.number
init(number)
bool found = false
ubyte current_closest_pi
ubyte current_distance = 127
ubyte pi
for pi in 0 to 255 {
generate_next_planet()
elite_planet.name = make_current_planet_name()
if elite_util.prefix_matches(nameptr, elite_planet.name) {
ubyte distance = elite_planet.distance(x, y)
if distance < current_distance {
current_distance = distance
current_closest_pi = pi
found = true
}
}
}
if found
travel_to(number, current_closest_pi)
else
travel_to(number, current_planet_num)
return found
}
sub local_area() {
ubyte current_planet = elite_planet.number
ubyte px = elite_planet.x
ubyte py = elite_planet.y
ubyte pn = 0
init(number)
; txt.print("\nGalaxy #")
; txt.print_ub(number)
; txt.print(" - systems in vicinity:\n")
do {
generate_next_planet()
ubyte distance = elite_planet.distance(px, py)
if distance <= elite_ship.Max_fuel {
; if distance <= elite_ship.fuel
; txt.chrout('*')
; else
; txt.chrout('-')
; txt.spc()
elite_planet.name = make_current_planet_name()
elite_planet.display(true, distance)
}
pn++
} until pn==0
travel_to(number, current_planet)
}
sub starmap(bool local) {
ubyte current_planet = elite_planet.number
ubyte px = elite_planet.x
ubyte py = elite_planet.y
str current_name = " " ; 8 max
ubyte pn = 0
current_name = elite_planet.name
init(number)
; txt.clear_screen()
; txt.print("Galaxy #")
; txt.print_ub(number)
; if local
; txt.print(" - local systems")
; else
; txt.print(" - galaxy")
; txt.print(" starmap:\n")
ubyte max_distance = 255
if local
max_distance = elite_ship.Max_fuel
ubyte home_sx
ubyte home_sy
ubyte home_distance
do {
generate_next_planet()
ubyte distance = elite_planet.distance(px, py)
if distance <= max_distance {
elite_planet.name = make_current_planet_name()
elite_planet.name[0] = strings.upperchar(elite_planet.name[0])
uword tx = elite_planet.x
uword ty = elite_planet.y
if local {
tx = tx + 24 - px
ty = ty + 24 - py
}
ubyte sx = display_scale_x(tx)
ubyte sy = display_scale_y(ty)
ubyte char = '*'
if elite_planet.number==current_planet
char = '%'
if local {
print_planet_details(elite_planet.name, sx, sy, distance)
} else if elite_planet.number==current_planet {
home_distance = distance
home_sx = sx
home_sy = sy
}
; txt.setchr(2+sx, 2+sy, char)
}
pn++
} until pn==0
if not local
print_planet_details(current_name, home_sx, home_sy, home_distance)
; if local
; txt.plot(0, display_scale_y(64) + 4)
; else
; txt.plot(0, display_scale_y(256) + 4 as ubyte)
travel_to(number, current_planet)
sub print_planet_details(str name, ubyte screenx, ubyte screeny, ubyte d) {
return
; txt.plot(2+screenx-2, 2+screeny+1)
; txt.print(name)
; if d!=0 {
; txt.plot(2+screenx-2, 2+screeny+2)
; elite_util.print_10s(d)
; txt.print(" LY")
; }
}
sub display_scale_x(uword x) -> ubyte {
if local
return x/2 as ubyte
return x/8 as ubyte
}
sub display_scale_y(uword y) -> ubyte {
if local
return y/4 as ubyte
return y/16 as ubyte
}
}
ubyte pn_pair1
ubyte pn_pair2
ubyte pn_pair3
ubyte pn_pair4
bool longname
sub generate_next_planet() {
determine_planet_properties()
longname = lsb(seed[0]) & 64 !=0
; Always four iterations of random number
pn_pair1 = (msb(seed[2]) & 31) * 2
tweakseed()
pn_pair2 = (msb(seed[2]) & 31) * 2
tweakseed()
pn_pair3 = (msb(seed[2]) & 31) * 2
tweakseed()
pn_pair4 = (msb(seed[2]) & 31) * 2
tweakseed()
}
sub make_current_planet_name() -> str {
ubyte ni = 0
str name = " " ; max 8
if pn_pairs[pn_pair1] != '.' {
name[ni] = pn_pairs[pn_pair1]
ni++
}
if pn_pairs[pn_pair1+1] != '.' {
name[ni] = pn_pairs[pn_pair1+1]
ni++
}
if pn_pairs[pn_pair2] != '.' {
name[ni] = pn_pairs[pn_pair2]
ni++
}
if pn_pairs[pn_pair2+1] != '.' {
name[ni] = pn_pairs[pn_pair2+1]
ni++
}
if pn_pairs[pn_pair3] != '.' {
name[ni] = pn_pairs[pn_pair3]
ni++
}
if pn_pairs[pn_pair3+1] != '.' {
name[ni] = pn_pairs[pn_pair3+1]
ni++
}
if longname {
if pn_pairs[pn_pair4] != '.' {
name[ni] = pn_pairs[pn_pair4]
ni++
}
if pn_pairs[pn_pair4+1] != '.' {
name[ni] = pn_pairs[pn_pair4+1]
ni++
}
}
name[ni] = 0
return name
}
sub determine_planet_properties() {
; create the planet's characteristics
elite_planet.number++
elite_planet.x = msb(seed[1])
elite_planet.y = msb(seed[0])
elite_planet.govtype = lsb(seed[1]) >> 3 & 7 ; bits 3,4 &5 of w1
elite_planet.economy = msb(seed[0]) & 7 ; bits 8,9 &A of w0
if elite_planet.govtype <= 1
elite_planet.economy = (elite_planet.economy | 2)
elite_planet.techlevel = (msb(seed[1]) & 3) + (elite_planet.economy ^ 7)
elite_planet.techlevel += elite_planet.govtype >> 1
if elite_planet.govtype & 1 !=0
elite_planet.techlevel++
elite_planet.population = 4 * elite_planet.techlevel + elite_planet.economy
elite_planet.population += elite_planet.govtype + 1
elite_planet.productivity = ((elite_planet.economy ^ 7) + 3) * (elite_planet.govtype + 4)
elite_planet.productivity *= elite_planet.population * 8
ubyte seed2_msb = msb(seed[2])
elite_planet.radius = mkword((seed2_msb & 15) + 11, elite_planet.x)
elite_planet.species_is_alien = lsb(seed[2]) & 128 !=0 ; bit 7 of w2_lo
if elite_planet.species_is_alien {
elite_planet.species_size = (seed2_msb >> 2) & 7 ; bits 2-4 of w2_hi
elite_planet.species_color = seed2_msb >> 5 ; bits 5-7 of w2_hi
elite_planet.species_look = (seed2_msb ^ msb(seed[1])) & 7 ;bits 0-2 of (w0_hi EOR w1_hi)
elite_planet.species_kind = (elite_planet.species_look + (seed2_msb & 3)) & 7 ;Add bits 0-1 of w2_hi to A from previous step, and take bits 0-2 of the result
}
elite_planet.goatsoup_seed[0] = lsb(seed[1])
elite_planet.goatsoup_seed[1] = msb(seed[1])
elite_planet.goatsoup_seed[2] = lsb(seed[2])
elite_planet.goatsoup_seed[3] = seed2_msb
}
sub tweakseed() {
uword temp = seed[0] + seed[1] + seed[2]
seed[0] = seed[1]
seed[1] = seed[2]
seed[2] = temp
}
sub twist(uword x) -> uword {
ubyte xh = msb(x)
ubyte xl = lsb(x)
xh <<= 1 ; make sure carry flag is not used on first shift!
rol(xl)
return mkword(xh, xl)
}
}
elite_planet {
str[] @nosplit words81 = ["fabled", "notable", "well known", "famous", "noted"]
str[] @nosplit words82 = ["very", "mildly", "most", "reasonably", ""]
str[] @nosplit words83 = ["ancient", "\x95", "great", "vast", "pink"]
str[] @nosplit words84 = ["\x9E \x9D plantations", "mountains", "\x9C", "\x94 forests", "oceans"]
str[] @nosplit words85 = ["shyness", "silliness", "mating traditions", "loathing of \x86", "love for \x86"]
str[] @nosplit words86 = ["food blenders", "tourists", "poetry", "discos", "\x8E"]
str[] @nosplit words87 = ["talking tree", "crab", "bat", "lobst", "\xB2"]
str[] @nosplit words88 = ["beset", "plagued", "ravaged", "cursed", "scourged"]
str[] @nosplit words89 = ["\x96 civil war", "\x9B \x98 \x99s", "a \x9B disease", "\x96 earthquakes", "\x96 solar activity"]
str[] @nosplit words8A = ["its \x83 \x84", "the \xB1 \x98 \x99", "its inhabitants' \x9A \x85", "\xA1", "its \x8D \x8E"]
str[] @nosplit words8B = ["juice", "brandy", "water", "brew", "gargle blasters"]
str[] @nosplit words8C = ["\xB2", "\xB1 \x99", "\xB1 \xB2", "\xB1 \x9B", "\x9B \xB2"]
str[] @nosplit words8D = ["fabulous", "exotic", "hoopy", "unusual", "exciting"]
str[] @nosplit words8E = ["cuisine", "night life", "casinos", "sit coms", " \xA1 "]
str[] @nosplit words8F = ["\xB0", "The planet \xB0", "The world \xB0", "This planet", "This world"]
str[] @nosplit words90 = ["n unremarkable", " boring", " dull", " tedious", " revolting"]
str[] @nosplit words91 = ["planet", "world", "place", "little planet", "dump"]
str[] @nosplit words92 = ["wasp", "moth", "grub", "ant", "\xB2"]
str[] @nosplit words93 = ["poet", "arts graduate", "yak", "snail", "slug"]
str[] @nosplit words94 = ["tropical", "dense", "rain", "impenetrable", "exuberant"]
str[] @nosplit words95 = ["funny", "wierd", "unusual", "strange", "peculiar"]
str[] @nosplit words96 = ["frequent", "occasional", "unpredictable", "dreadful", "deadly"]
str[] @nosplit words97 = ["\x82 \x81 for \x8A", "\x82 \x81 for \x8A and \x8A", "\x88 by \x89", "\x82 \x81 for \x8A but \x88 by \x89", "a\x90 \x91"]
str[] @nosplit words98 = ["\x9B", "mountain", "edible", "tree", "spotted"]
str[] @nosplit words99 = ["\x9F", "\xA0", "\x87oid", "\x93", "\x92"]
str[] @nosplit words9A = ["ancient", "exceptional", "eccentric", "ingrained", "\x95"]
str[] @nosplit words9B = ["killer", "deadly", "evil", "lethal", "vicious"]
str[] @nosplit words9C = ["parking meters", "dust clouds", "ice bergs", "rock formations", "volcanoes"]
str[] @nosplit words9D = ["plant", "tulip", "banana", "corn", "\xB2weed"]
str[] @nosplit words9E = ["\xB2", "\xB1 \xB2", "\xB1 \x9B", "inhabitant", "\xB1 \xB2"]
str[] @nosplit words9F = ["shrew", "beast", "bison", "snake", "wolf"]
str[] @nosplit wordsA0 = ["leopard", "cat", "monkey", "goat", "fish"]
str[] @nosplit wordsA1 = ["\x8C \x8B", "\xB1 \x9F \xA2", "its \x8D \xA0 \xA2", "\xA3 \xA4", "\x8C \x8B"]
str[] @nosplit wordsA2 = ["meat", "cutlet", "steak", "burgers", "soup"]
str[] @nosplit wordsA3 = ["ice", "mud", "Zero-G", "vacuum", "\xB1 ultra"]
str[] @nosplit wordsA4 = ["hockey", "cricket", "karate", "polo", "tennis"]
uword[] @shared wordlists = [
words81, words82, words83, words84, words85, words86, words87, words88,
words89, words8A, words8B, words8C, words8D, words8E, words8F, words90,
words91, words92, words93, words94, words95, words96, words97, words98,
words99, words9A, words9B, words9C, words9D, words9E, words9F, wordsA0,
wordsA1, wordsA2, wordsA3, wordsA4]
str pairs0 = "abouseitiletstonlonuthnoallexegezacebisousesarmaindirea.eratenbe"
ubyte[4] goatsoup_rnd = [0, 0, 0, 0]
ubyte[4] goatsoup_seed = [0, 0, 0, 0]
str name = " " ; 8 max
ubyte number ; starts at 0 in new galaxy, then increases by 1 for each generated planet
ubyte x
ubyte y
ubyte economy
ubyte govtype
ubyte techlevel
ubyte population
uword productivity
uword radius
bool species_is_alien ; otherwise "Human Colonials"
ubyte species_size
ubyte species_color
ubyte species_look
ubyte species_kind
sub set_seed(uword s1, uword s2) {
goatsoup_seed[0] = lsb(s1)
goatsoup_seed[1] = msb(s1)
goatsoup_seed[2] = lsb(s2)
goatsoup_seed[3] = msb(s2)
reset_rnd()
}
sub reset_rnd() {
goatsoup_rnd[0] = goatsoup_seed[0]
goatsoup_rnd[1] = goatsoup_seed[1]
goatsoup_rnd[2] = goatsoup_seed[2]
goatsoup_rnd[3] = goatsoup_seed[3]
}
sub random_name() -> str {
ubyte ii
str randname = " " ; 8 chars max
ubyte nx = 0
for ii in 0 to goatsoup_rnd_number() & 3 {
ubyte xx = goatsoup_rnd_number() & $3e
if pairs0[xx] != '.' {
randname[nx] = pairs0[xx]
nx++
}
xx++
if pairs0[xx] != '.' {
randname[nx] = pairs0[xx]
nx++
}
}
randname[nx] = 0
randname[0] = strings.upperchar(randname[0])
return randname
}
sub goatsoup_rnd_number() -> ubyte {
ubyte xx = goatsoup_rnd[0] * 2
uword a = xx as uword + goatsoup_rnd[2]
if goatsoup_rnd[0] > 127
a ++
goatsoup_rnd[0] = lsb(a)
goatsoup_rnd[2] = xx
xx = goatsoup_rnd[1]
ubyte ac = xx + goatsoup_rnd[3] + msb(a)
goatsoup_rnd[1] = ac
goatsoup_rnd[3] = xx
return ac
}
sub distance(ubyte px, ubyte py) -> ubyte {
uword ax
uword ay
if px>x
ax=px-x
else
ax=x-px
if py>y
ay=py-y
else
ay=y-py
ay /= 2
ubyte d = sqrt(ax*ax + ay*ay)
if d>63
return 255
return d*4
}
sub soup() -> str {
str planet_result = " " * 160
uword[6] source_stack
ubyte stack_ptr = 0
str start_source = "\x8F is \x97."
uword source_ptr = &start_source
uword result_ptr = &planet_result
reset_rnd()
recursive_soup()
return planet_result
sub recursive_soup() {
repeat {
ubyte c = @(source_ptr)
source_ptr++
if c == $00 {
@(result_ptr) = 0
return
}
else if c <= $80 {
@(result_ptr) = c
result_ptr++
}
else {
if c <= $a4 {
ubyte rnr = goatsoup_rnd_number()
ubyte wordNr = ((rnr >= $33) as ubyte) + ((rnr >= $66) as ubyte) + ((rnr >= $99) as ubyte) + ((rnr >= $CC) as ubyte)
source_stack[stack_ptr] = source_ptr
stack_ptr++
source_ptr = getword(c, wordNr)
recursive_soup() ; RECURSIVE CALL - ignore the warning message from the compiler; we don't use local variables or parameters so we're safe in this case
stack_ptr--
source_ptr = source_stack[stack_ptr]
} else {
if c == $b0 {
@(result_ptr) = strings.upperchar(name[0])
result_ptr++
concat_string(&name + 1)
}
else if c == $b1 {
@(result_ptr) = strings.upperchar(name[0])
result_ptr++
ubyte ni
for ni in 1 to len(name) {
ubyte cc = name[ni]
if cc in ['e', 'o', 0]
break
else {
@(result_ptr) = cc
result_ptr++
}
}
@(result_ptr) = 'i'
result_ptr++
@(result_ptr) = 'a'
result_ptr++
@(result_ptr) = 'n'
result_ptr++
}
else if c == $b2 {
concat_string(random_name())
}
else {
@(result_ptr) = c
result_ptr++
}
}
}
}
}
sub concat_string(uword str_ptr) {
repeat {
ubyte c = @(str_ptr)
if c==0
break
else {
@(result_ptr) = c
str_ptr++
result_ptr++
}
}
}
}
sub display(bool compressed, ubyte distance) {
txt.print(soup())
txt.nl()
}
sub getword(ubyte listnum, ubyte wordidx) -> uword {
uword list = wordlists[listnum-$81]
return peekw(list + wordidx*2)
}
}
elite_util {
sub prefix_matches(uword prefixptr, uword stringptr) -> bool {
repeat {
ubyte pc = @(prefixptr)
ubyte sc = @(stringptr)
if pc == 0
return true
; to lowercase for case insensitive compare:
if strings.lowerchar(pc)!=strings.lowerchar(sc)
return false
prefixptr++
stringptr++
}
}
}

118
benchmark-program/benchmark.p8
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@@ -1,118 +0,0 @@
; This benchmark program is meant to check for regressions in the
; Prog8 compiler's code-generator (performance wise).
;
; As the X16 computer is a more or less fixed system, it's not very useful
; to benchmark the computer itself with.
%import textio
%import b_adpcm
%import b_circles
%import b_3d
%import b_life
%import b_mandelbrot
%import b_queens
%import b_textelite
%import b_maze
%import b_sprites
%import b_btree
%zeropage basicsafe
%option no_sysinit
main {
str[20] benchmark_names
uword[20] benchmark_score
sub start() {
ubyte benchmark_number
cx16.set_screen_mode(3)
txt.color2(1, 6)
txt.clear_screen()
txt.print("\n\n\n prog8 compiler benchmark tests.\n\n benchmark version v12\n\n")
sys.wait(60)
benchmark_number = 0
announce_benchmark("maze solver")
benchmark_score[benchmark_number] = maze.bench(300)
benchmark_number++
announce_benchmark("n-queens")
benchmark_score[benchmark_number] = queens.bench(300)
benchmark_number++
announce_benchmark("mandelbrot (floating point)")
benchmark_score[benchmark_number] = mandelbrot.calc(400)
benchmark_number++
announce_benchmark("game of life")
benchmark_score[benchmark_number] = life.benchmark(300)
benchmark_number++
announce_benchmark("3d model rotation")
benchmark_score[benchmark_number] = rotate3d.benchmark(300)
benchmark_number++
announce_benchmark("adpcm audio decoding")
benchmark_score[benchmark_number] = adpcm.decode_benchmark(300)
benchmark_number++
announce_benchmark("circles with gfx_lores")
benchmark_score[benchmark_number] = circles.draw(false, 400)
benchmark_number++
announce_benchmark("text-elite")
benchmark_score[benchmark_number] = textelite.bench(120)
benchmark_number++
announce_benchmark("sprites-coroutines-defer")
benchmark_score[benchmark_number] = animsprites.benchmark(300)
benchmark_number++
announce_benchmark("btree-struct-pointers")
benchmark_score[benchmark_number] = btree.benchmark(200)
benchmark_number++
benchmark_names[benchmark_number] = 0
benchmark_score[benchmark_number] = 0
cx16.set_screen_mode(3)
txt.uppercase()
txt.color2(1, 6)
uword total_score
benchmark_number = 0
txt.print("\nscore benchmark (v12)\n\n")
do {
txt.spc()
txt.print_uw(benchmark_score[benchmark_number])
txt.column(6)
txt.print(benchmark_names[benchmark_number])
total_score += benchmark_score[benchmark_number]
txt.nl()
benchmark_number++
} until benchmark_names[benchmark_number]==0
txt.print("\n\ntotal score : ")
txt.print_uw(total_score)
txt.print(" (higher=better)\n")
sub announce_benchmark(str name) {
benchmark_names[benchmark_number] = name
cx16.set_screen_mode(3)
txt.uppercase()
txt.color2(1, 6)
txt.clear_screen()
txt.plot(4, 6)
txt.print(benchmark_names[benchmark_number])
txt.nl()
sys.wait(60)
}
}
}

10
build.gradle Normal file
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@@ -0,0 +1,10 @@
plugins {
id "org.jetbrains.kotlin.jvm" version "$kotlinVersion" apply false
}
allprojects {
repositories {
mavenLocal()
mavenCentral()
}
}

38
build.gradle.kts
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@@ -1,38 +0,0 @@
import org.jetbrains.kotlin.gradle.dsl.JvmTarget
import org.jetbrains.kotlin.gradle.dsl.JvmDefaultMode
import org.jetbrains.kotlin.gradle.internal.config.LanguageFeature
import org.jetbrains.kotlin.gradle.dsl.KotlinVersion
plugins {
kotlin("jvm") version "2.2.20"
}
allprojects {
apply(plugin="kotlin")
repositories {
mavenLocal()
mavenCentral()
}
kotlin {
compilerOptions {
freeCompilerArgs = listOf("-Xwhen-guards")
jvmTarget = JvmTarget.JVM_11
jvmDefault = JvmDefaultMode.NO_COMPATIBILITY
// languageVersion.set(KotlinVersion.KOTLIN_2_3)
}
sourceSets.all {
languageSettings {
// enable language features like so:
// enableLanguageFeature(LanguageFeature.WhenGuards.name)
}
}
}
java {
targetCompatibility = JavaVersion.VERSION_11
sourceCompatibility = JavaVersion.VERSION_11
}
}

43
codeCore/build.gradle Normal file
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@@ -0,0 +1,43 @@
plugins {
id 'java'
id 'application'
id "org.jetbrains.kotlin.jvm"
}
java {
toolchain {
languageVersion = JavaLanguageVersion.of(javaVersion)
}
}
compileKotlin {
kotlinOptions {
jvmTarget = javaVersion
}
}
compileTestKotlin {
kotlinOptions {
jvmTarget = javaVersion
}
}
dependencies {
// should have no dependencies to other modules
implementation "org.jetbrains.kotlin:kotlin-stdlib-jdk8"
implementation "com.michael-bull.kotlin-result:kotlin-result-jvm:1.1.16"
}
sourceSets {
main {
java {
srcDirs = ["${project.projectDir}/src"]
}
resources {
srcDirs = ["${project.projectDir}/res"]
}
}
}
// note: there are no unit tests in this module!

22
codeCore/build.gradle.kts
View File

@@ -1,22 +0,0 @@
plugins {
kotlin("jvm")
}
dependencies {
// should have no dependencies to other modules
// implementation("org.jetbrains.kotlin:kotlin-stdlib-jdk8")
implementation("com.michael-bull.kotlin-result:kotlin-result-jvm:2.1.0")
}
sourceSets {
main {
java {
srcDir("${project.projectDir}/src")
}
resources {
srcDir("${project.projectDir}/res")
}
}
}
// note: there are no unit tests in this module!

2
intermediate/src/prog8/Either.kt → codeCore/src/prog8/code/Either.kt
View File

@@ -1,4 +1,4 @@
package prog8
package prog8.code
/**
* By convention, the right side of an `Either` is used to hold successful values.

32
codeCore/src/prog8/code/Globals.kt
View File

@@ -1,32 +0,0 @@
package prog8.code
import java.io.IOException
import java.nio.file.Path
import kotlin.io.path.absolute
const val INTERNED_STRINGS_MODULENAME = "prog8_interned_strings"
val PROG8_CONTAINER_MODULES = arrayOf(INTERNED_STRINGS_MODULENAME) // option to add more if needed one day
// all automatically generated labels everywhere need to have the same label name prefix:
const val GENERATED_LABEL_PREFIX = "p8_label_gen_"
/**
* Returns the absolute path of the given path,
* where links are replaced by the actual directories,
* and containing no redundant path elements.
* If the path doesn't refer to an existing directory or file on the file system,
* it is returned unchanged.
*/
fun Path.sanitize(): Path {
return try {
this.toRealPath().normalize()
} catch (_: java.nio.file.NoSuchFileException) {
this.absolute().normalize()
//throw NoSuchFileException(this.toFile(), null, nx.reason).also { it.initCause(nx) }
} catch (iox: IOException) {
throw FileSystemException(this.toFile()).also { it.initCause(iox) }
}
}

251
codeCore/src/prog8/code/SymbolTable.kt Normal file
View File

@@ -0,0 +1,251 @@
package prog8.code
import prog8.code.ast.PtNode
import prog8.code.ast.PtProgram
import prog8.code.core.*
/**
* Tree structure containing all symbol definitions in the program
* (blocks, subroutines, variables (all types), memoryslabs, and labels).
*/
class SymbolTable(astProgram: PtProgram) : StNode(astProgram.name, StNodeType.GLOBAL, astProgram) {
/**
* The table as a flat mapping of scoped names to the StNode.
* This gives the fastest lookup possible (no need to traverse tree nodes)
*/
private var cachedFlat: Map<String, StNode>? = null
val flat: Map<String, StNode> get() {
if(cachedFlat!=null)
return cachedFlat!!
val result = mutableMapOf<String, StNode>()
fun collect(node: StNode) {
for(child in node.children) {
result[child.value.scopedName] = child.value
collect(child.value)
}
}
collect(this)
cachedFlat = result
return result
}
fun resetCachedFlat() {
cachedFlat = null
}
val allVariables: Collection<StStaticVariable> by lazy {
val vars = mutableListOf<StStaticVariable>()
fun collect(node: StNode) {
for(child in node.children) {
if(child.value.type== StNodeType.STATICVAR)
vars.add(child.value as StStaticVariable)
else
collect(child.value)
}
}
collect(this)
vars
}
val allMemMappedVariables: Collection<StMemVar> by lazy {
val vars = mutableListOf<StMemVar>()
fun collect(node: StNode) {
for(child in node.children) {
if(child.value.type== StNodeType.MEMVAR)
vars.add(child.value as StMemVar)
else
collect(child.value)
}
}
collect(this)
vars
}
val allMemorySlabs: Collection<StMemorySlab> by lazy {
val vars = mutableListOf<StMemorySlab>()
fun collect(node: StNode) {
for(child in node.children) {
if(child.value.type== StNodeType.MEMORYSLAB)
vars.add(child.value as StMemorySlab)
else
collect(child.value)
}
}
collect(this)
vars
}
override fun lookup(scopedName: String) = flat[scopedName]
}
enum class StNodeType {
GLOBAL,
// MODULE, // not used with current scoping rules
BLOCK,
SUBROUTINE,
ROMSUB,
LABEL,
STATICVAR,
MEMVAR,
CONSTANT,
BUILTINFUNC,
MEMORYSLAB
}
open class StNode(val name: String,
val type: StNodeType,
val astNode: PtNode,
val children: MutableMap<String, StNode> = mutableMapOf()
) {
lateinit var parent: StNode
val scopedName: String by lazy { scopedNameList.joinToString(".") }
open fun lookup(scopedName: String) =
lookup(scopedName.split('.'))
fun lookupUnscopedOrElse(name: String, default: () -> StNode) =
lookupUnscoped(name) ?: default()
fun lookupOrElse(scopedName: String, default: () -> StNode): StNode =
lookup(scopedName.split('.')) ?: default()
fun lookupUnscoped(name: String): StNode? {
// first consider the builtin functions
var globalscope = this
while(globalscope.type!= StNodeType.GLOBAL)
globalscope = globalscope.parent
val globalNode = globalscope.children[name]
if(globalNode!=null && globalNode.type== StNodeType.BUILTINFUNC)
return globalNode
// search for the unqualified name in the current scope or its parent scopes
var scope=this
while(true) {
val node = scope.children[name]
if(node!=null)
return node
if(scope.type== StNodeType.GLOBAL)
return null
else
scope = scope.parent
}
}
fun add(child: StNode) {
children[child.name] = child
child.parent = this
}
private val scopedNameList: List<String> by lazy {
if(type==StNodeType.GLOBAL)
emptyList()
else
parent.scopedNameList + name
}
private fun lookup(scopedName: List<String>): StNode? {
// a scoped name refers to a name in another namespace, and always stars from the root.
var node = this
while(node.type!=StNodeType.GLOBAL)
node = node.parent
for(name in scopedName) {
if(name in node.children)
node = node.children.getValue(name)
else
return null
}
return node
}
}
class StStaticVariable(name: String,
val dt: DataType,
val onetimeInitializationNumericValue: Double?, // regular (every-run-time) initialization is done via regular assignments
val onetimeInitializationStringValue: StString?,
val onetimeInitializationArrayValue: StArray?,
val length: Int?, // for arrays: the number of elements, for strings: number of characters *including* the terminating 0-byte
val zpwish: ZeropageWish, // used in the variable allocator
astNode: PtNode) : StNode(name, StNodeType.STATICVAR, astNode) {
val uninitialized = onetimeInitializationArrayValue==null && onetimeInitializationStringValue==null && onetimeInitializationNumericValue==null
init {
if(length!=null) {
require(onetimeInitializationNumericValue == null)
if(onetimeInitializationArrayValue!=null)
require(onetimeInitializationArrayValue.isEmpty() ||onetimeInitializationArrayValue.size==length)
}
if(onetimeInitializationNumericValue!=null) {
require(dt in NumericDatatypes)
require(onetimeInitializationNumericValue!=0.0) { "zero as init value should just remain uninitialized"}
}
if(onetimeInitializationArrayValue!=null) {
require(dt in ArrayDatatypes)
if(onetimeInitializationArrayValue.all { it.number!=null} ) {
require(onetimeInitializationArrayValue.any { it.number != 0.0 }) { "array of all zerors as init value should just remain uninitialized" }
}
}
if(onetimeInitializationStringValue!=null) {
require(dt == DataType.STR)
require(length == onetimeInitializationStringValue.first.length+1)
}
}
}
class StConstant(name: String, val dt: DataType, val value: Double, astNode: PtNode) :
StNode(name, StNodeType.CONSTANT, astNode) {
}
class StMemVar(name: String,
val dt: DataType,
val address: UInt,
val length: Int?, // for arrays: the number of elements, for strings: number of characters *including* the terminating 0-byte
astNode: PtNode) :
StNode(name, StNodeType.MEMVAR, astNode) {
init{
if(dt in ArrayDatatypes || dt == DataType.STR)
require(length!=null) { "memory mapped array or string must have known length" }
}
}
class StMemorySlab(
name: String,
val size: UInt,
val align: UInt,
astNode: PtNode
):
StNode(name, StNodeType.MEMORYSLAB, astNode) {
}
class StSub(name: String, val parameters: List<StSubroutineParameter>, val returnType: DataType?, astNode: PtNode) :
StNode(name, StNodeType.SUBROUTINE, astNode) {
}
class StRomSub(name: String,
val address: UInt?, // null in case of asmsub, specified in case of romsub
val parameters: List<StRomSubParameter>,
val returns: List<StRomSubParameter>,
astNode: PtNode) :
StNode(name, StNodeType.ROMSUB, astNode)
class StSubroutineParameter(val name: String, val type: DataType)
class StRomSubParameter(val register: RegisterOrStatusflag, val type: DataType)
class StArrayElement(val number: Double?, val addressOfSymbol: String?)
typealias StString = Pair<String, Encoding>
typealias StArray = List<StArrayElement>

138
simpleAst/src/prog8/code/SymbolTableMaker.kt → codeCore/src/prog8/code/SymbolTableMaker.kt
View File

@@ -3,19 +3,18 @@ package prog8.code
import prog8.code.ast.*
import prog8.code.core.*
import prog8.code.target.VMTarget
import java.util.*
class SymbolTableMaker(private val program: PtProgram, private val options: CompilationOptions) {
fun make(): SymbolTable {
val st = SymbolTable(program)
BuiltinFunctions.forEach {
val dt = DataType.forDt(it.value.returnType ?: BaseDataType.UNDEFINED)
st.add(StNode(it.key, StNodeType.BUILTINFUNC, PtIdentifier(it.key, dt, Position.DUMMY)))
st.add(StNode(it.key, StNodeType.BUILTINFUNC, PtIdentifier(it.key, it.value.returnType ?: DataType.UNDEFINED, Position.DUMMY)))
}
val scopestack = ArrayDeque<StNode>()
scopestack.add(st)
val scopestack = Stack<StNode>()
scopestack.push(st)
program.children.forEach {
addToSt(it, scopestack)
}
@@ -23,93 +22,79 @@ class SymbolTableMaker(private val program: PtProgram, private val options: Comp
if(options.compTarget.name != VMTarget.NAME) {
listOf(
PtMemMapped("P8ZP_SCRATCH_B1", DataType.UBYTE, options.compTarget.zeropage.SCRATCH_B1, null, Position.DUMMY),
PtMemMapped("P8ZP_SCRATCH_REG", DataType.UBYTE, options.compTarget.zeropage.SCRATCH_REG, null, Position.DUMMY),
PtMemMapped("P8ZP_SCRATCH_W1", DataType.UWORD, options.compTarget.zeropage.SCRATCH_W1, null, Position.DUMMY),
PtMemMapped("P8ZP_SCRATCH_W2", DataType.UWORD, options.compTarget.zeropage.SCRATCH_W2, null, Position.DUMMY),
PtMemMapped("P8ZP_SCRATCH_B1", DataType.UBYTE, options.compTarget.machine.zeropage.SCRATCH_B1, null, Position.DUMMY),
PtMemMapped("P8ZP_SCRATCH_REG", DataType.UBYTE, options.compTarget.machine.zeropage.SCRATCH_REG, null, Position.DUMMY),
PtMemMapped("P8ZP_SCRATCH_W1", DataType.UWORD, options.compTarget.machine.zeropage.SCRATCH_W1, null, Position.DUMMY),
PtMemMapped("P8ZP_SCRATCH_W2", DataType.UWORD, options.compTarget.machine.zeropage.SCRATCH_W2, null, Position.DUMMY),
PtMemMapped("P8ESTACK_LO", DataType.ARRAY_UB, options.compTarget.machine.ESTACK_LO, 128u, Position.DUMMY),
PtMemMapped("P8ESTACK_HI", DataType.ARRAY_UB, options.compTarget.machine.ESTACK_HI, 128u, Position.DUMMY)
).forEach {
it.parent = program
st.add(StMemVar(it.name, it.type, it.address, it.arraySize, it))
st.add(StMemVar(it.name, it.type, it.address, it.arraySize?.toInt(), it))
}
}
return st
}
private fun addToSt(node: PtNode, scope: ArrayDeque<StNode>) {
private fun addToSt(node: PtNode, scope: Stack<StNode>) {
val stNode = when(node) {
is PtAsmSub -> {
val parameters = node.parameters.map { StExtSubParameter(it.first, it.second.type) }
val returns = node.returns.map { StExtSubParameter(it.first, it.second) }
StExtSub(node.name, node.address, parameters, returns, node)
val parameters = node.parameters.map { StRomSubParameter(it.first, it.second.type) }
val returns = node.returns.map { StRomSubParameter(it.first, it.second) }
StRomSub(node.name, node.address, parameters, returns, node)
}
is PtBlock -> {
StNode(node.name, StNodeType.BLOCK, node)
}
is PtConstant -> {
require(node.type.isNumericOrBool)
StConstant(node.name, node.type.base, node.value, node)
StConstant(node.name, node.type, node.value, node)
}
is PtLabel -> {
StNode(node.name, StNodeType.LABEL, node)
}
is PtMemMapped -> {
StMemVar(node.name, node.type, node.address, node.arraySize, node)
StMemVar(node.name, node.type, node.address, node.arraySize?.toInt(), node)
}
is PtSub -> {
val params = node.signature.children.map {
it as PtSubroutineParameter
StSubroutineParameter(it.name, it.type, it.register)
}
StSub(node.name, params, node.signature.returns, node)
}
is PtStructDecl -> {
val size = node.fields.sumOf { program.memsizer.memorySize(it.first, 1) }
StStruct(node.name, node.fields, size.toUInt(), node)
val params = node.parameters.map {StSubroutineParameter(it.name, it.type) }
StSub(node.name, params, node.returntype, node)
}
is PtVariable -> {
val initialNumeric: Double?
val initialString: StString?
val initialArray: StArray?
val numElements: UInt?
val numElements: Int?
val value = node.value
if(value!=null) {
val number = (value as? PtNumber)?.number
initialNumeric = if(number==0.0) null else number // 0 as init value -> just uninitialized
when (value) {
is PtString -> {
initialString = StString(value.value, value.encoding)
initialArray = null
initialNumeric = null
numElements = (value.value.length + 1).toUInt() // include the terminating 0-byte
numElements = value.value.length + 1 // include the terminating 0-byte
}
is PtArray -> {
initialArray = makeInitialArray(value, scope)
val array = makeInitialArray(value)
initialArray = if(array.all { it.number==0.0 }) null else array // all 0 as init value -> just uninitialized
initialString = null
initialNumeric = null
numElements = initialArray.size.toUInt()
require(node.arraySize==numElements)
numElements = array.size
require(node.arraySize?.toInt()==numElements)
}
else -> {
require(value is PtNumber)
initialString = null
initialArray = null
val number = value.number
initialNumeric = number
numElements = node.arraySize
numElements = node.arraySize?.toInt()
}
}
} else {
initialNumeric = null
initialArray = null
initialString = null
numElements = node.arraySize
numElements = node.arraySize?.toInt()
}
// if(node.type in SplitWordArrayTypes) {
// ... split array also add _lsb and _msb to symboltable?
// }
val stVar = StStaticVariable(node.name, node.type, initialString, initialArray, numElements, node.zeropage, node.align, node.dirty,node)
if(initialNumeric!=null)
stVar.setOnetimeInitNumeric(initialNumeric)
stVar
StStaticVariable(node.name, node.type, initialNumeric, initialString, initialArray, numElements, node.zeropage, node)
}
is PtBuiltinFunctionCall -> {
if(node.name=="memory") {
@@ -119,13 +104,7 @@ class SymbolTableMaker(private val program: PtProgram, private val options: Comp
val size = (node.args[1] as PtNumber).number.toUInt()
val align = (node.args[2] as PtNumber).number.toUInt()
// don't add memory slabs in nested scope, just put them in the top level of the ST
scope.first().add(StMemorySlab("memory_$slabname", size, align, node))
}
else if(node.name=="prog8_lib_structalloc") {
val instance = handleStructAllocation(node)
if(instance!=null) {
scope.first().add(instance) // don't add struct instances in nested scope, just put them in the top level of the ST
}
scope.firstElement().add(StMemorySlab("prog8_memoryslab_$slabname", size, align, node))
}
null
}
@@ -133,61 +112,22 @@ class SymbolTableMaker(private val program: PtProgram, private val options: Comp
}
if(stNode!=null) {
scope.last().add(stNode)
scope.add(stNode)
scope.peek().add(stNode)
scope.push(stNode)
}
node.children.forEach {
addToSt(it, scope)
}
if(stNode!=null)
scope.removeLast()
scope.pop()
}
private fun handleStructAllocation(node: PtBuiltinFunctionCall): StStructInstance? {
val struct = node.type.subType as? StStruct ?: return null
val initialValues = node.args.map {
when(it) {
is PtAddressOf -> StArrayElement(null, it.identifier!!.name, null, null,null)
is PtBool -> StArrayElement(null, null, null, null, it.value)
is PtNumber -> StArrayElement(it.number, null, null, null, null)
else -> throw AssemblyError("invalid structalloc argument type $it")
}
}
val label = SymbolTable.labelnameForStructInstance(node)
val scopedStructName = if(struct.astNode!=null) (struct.astNode as PtNamedNode).scopedName else struct.scopedNameString
return StStructInstance(label, scopedStructName, initialValues, struct.size, null)
}
private fun makeInitialArray(value: PtArray, scope: ArrayDeque<StNode>): List<StArrayElement> {
private fun makeInitialArray(value: PtArray): List<StArrayElement> {
return value.children.map {
when(it) {
is PtAddressOf -> {
when {
it.isFromArrayElement -> TODO("address-of array element $it in initial array value ${it.position}")
else -> StArrayElement(null, it.identifier!!.name, null, null,null)
}
}
is PtNumber -> StArrayElement(it.number, null, null,null,null)
is PtBool -> StArrayElement(null, null, null,null,it.value)
is PtBuiltinFunctionCall -> {
if(it.name=="prog8_lib_structalloc") {
val instance = handleStructAllocation(it)
if(instance==null) {
val label = SymbolTable.labelnameForStructInstance(it)
if (it.args.isEmpty())
StArrayElement(null, null, null, label, null)
else
StArrayElement(null, null, label, null, null)
} else {
scope.first().add(instance) // don't add struct instances in nested scope, just put them in the top level of the ST
if (it.args.isEmpty())
StArrayElement(null, null, null, instance.name, null)
else
StArrayElement(null, null, instance.name, null, null)
}
} else
TODO("support for initial array element via ${it.name} ${it.position}")
}
is PtAddressOf -> StArrayElement(null, it.identifier.name)
is PtIdentifier -> StArrayElement(null, it.name)
is PtNumber -> StArrayElement(it.number, null)
else -> throw AssemblyError("invalid array element $it")
}
}
@@ -230,7 +170,7 @@ class SymbolTableMaker(private val program: PtProgram, private val options: Comp
// }
// VarDeclType.MEMORY -> {
// val numElements =
// if(decl.isArray)
// if(decl.datatype in ArrayDatatypes)
// decl.arraysize!!.constIndex()
// else null
// val astNode = PtVariable(decl.name, decl.datatype, null, null, decl.position)

47
simpleAst/src/prog8/code/ast/AstBase.kt → codeCore/src/prog8/code/ast/AstBase.kt
View File

@@ -3,7 +3,7 @@ package prog8.code.ast
import prog8.code.core.IMemSizer
import prog8.code.core.IStringEncoding
import prog8.code.core.Position
import prog8.code.source.SourceCode
import prog8.code.core.SourceCode
import java.nio.file.Path
// New simplified AST for the code generator.
@@ -14,10 +14,6 @@ sealed class PtNode(val position: Position) {
val children = mutableListOf<PtNode>()
lateinit var parent: PtNode
fun parentHasBeenSet() = ::parent.isInitialized
override fun toString(): String = "${super.toString()} at $position"
fun add(child: PtNode) {
children.add(child)
child.parent = this
@@ -41,17 +37,16 @@ class PtNodeGroup : PtNode(Position.DUMMY)
sealed class PtNamedNode(var name: String, position: Position): PtNode(position) {
// Note that as an exception, the 'name' is not read-only
// but a var. This is to allow for cheap node renames.
val scopedName: String
get() {
var namedParent: PtNode = this.parent
return if(namedParent is PtProgram)
name
else {
while (namedParent !is PtNamedNode)
namedParent = namedParent.parent
namedParent.scopedName + "." + name
}
val scopedName: String by lazy {
var namedParent: PtNode = this.parent
if(namedParent is PtProgram)
name
else {
while (namedParent !is PtNamedNode)
namedParent = namedParent.parent
namedParent.scopedName + "." + name
}
}
}
@@ -68,24 +63,23 @@ class PtProgram(
children.asSequence().filterIsInstance<PtBlock>()
fun entrypoint(): PtSub? =
// returns the main.start subroutine if it exists
allBlocks().firstOrNull { it.name == "main" || it.name=="p8b_main" }
?.children
?.firstOrNull { it is PtSub && (it.name == "start" || it.name=="main.start" || it.name=="p8s_start" || it.name=="p8b_main.p8s_start") } as PtSub?
allBlocks().firstOrNull { it.name == "main" }?.children?.firstOrNull { it is PtSub && (it.name == "start" || it.name=="main.start") } as PtSub?
}
class PtBlock(name: String,
val address: UInt?,
val library: Boolean,
val forceOutput: Boolean,
val alignment: BlockAlignment,
val source: SourceCode, // taken from the module the block is defined in.
val options: Options,
position: Position
) : PtNamedNode(name, position) {
class Options(val address: UInt? = null,
val forceOutput: Boolean = false,
val noSymbolPrefixing: Boolean = false,
val veraFxMuls: Boolean = false,
val ignoreUnused: Boolean = false)
enum class BlockAlignment {
NONE,
WORD,
PAGE
}
}
@@ -103,9 +97,6 @@ class PtLabel(name: String, position: Position) : PtNamedNode(name, position)
class PtBreakpoint(position: Position): PtNode(position)
class PtAlign(val align: UInt, position: Position): PtNode(position)
class PtIncludeBinary(val file: Path, val offset: UInt?, val length: UInt?, position: Position) : PtNode(position)

301
codeCore/src/prog8/code/ast/AstExpressions.kt Normal file
View File

@@ -0,0 +1,301 @@
package prog8.code.ast
import prog8.code.core.DataType
import prog8.code.core.Encoding
import prog8.code.core.NumericDatatypes
import prog8.code.core.Position
import java.util.*
import kotlin.math.abs
import kotlin.math.round
sealed class PtExpression(val type: DataType, position: Position) : PtNode(position) {
init {
if(type==DataType.BOOL)
throw IllegalArgumentException("bool should have become ubyte @$position")
if(type==DataType.UNDEFINED) {
@Suppress("LeakingThis")
when(this) {
is PtBuiltinFunctionCall -> { /* void function call */ }
is PtFunctionCall -> { /* void function call */ }
is PtIdentifier -> { /* non-variable identifier */ }
else -> throw IllegalArgumentException("type should be known @$position")
}
}
}
infix fun isSameAs(other: PtExpression): Boolean {
return when(this) {
is PtAddressOf -> other is PtAddressOf && other.type==type && other.identifier isSameAs identifier
is PtArrayIndexer -> other is PtArrayIndexer && other.type==type && other.variable isSameAs variable && other.index isSameAs index
is PtBinaryExpression -> other is PtBinaryExpression && other.left isSameAs left && other.right isSameAs right
is PtContainmentCheck -> other is PtContainmentCheck && other.type==type && other.element isSameAs element && other.iterable isSameAs iterable
is PtIdentifier -> other is PtIdentifier && other.type==type && other.name==name
is PtMachineRegister -> other is PtMachineRegister && other.type==type && other.register==register
is PtMemoryByte -> other is PtMemoryByte && other.address isSameAs address
is PtNumber -> other is PtNumber && other.type==type && other.number==number
is PtPrefix -> other is PtPrefix && other.type==type && other.operator==operator && other.value isSameAs value
is PtRange -> other is PtRange && other.type==type && other.from==from && other.to==to && other.step==step
is PtTypeCast -> other is PtTypeCast && other.type==type && other.value isSameAs value
else -> false
}
}
infix fun isSameAs(target: PtAssignTarget): Boolean {
return when {
target.memory != null && this is PtMemoryByte-> {
target.memory!!.address isSameAs this.address
}
target.identifier != null && this is PtIdentifier -> {
this.name == target.identifier!!.name
}
target.array != null && this is PtArrayIndexer -> {
this.variable.name == target.array!!.variable.name && this.index isSameAs target.array!!.index
}
else -> false
}
}
fun asConstInteger(): Int? = (this as? PtNumber)?.number?.toInt()
fun isSimple(): Boolean {
return when(this) {
is PtAddressOf -> true
is PtArray -> true
is PtArrayIndexer -> index is PtNumber || index is PtIdentifier
is PtBinaryExpression -> false
is PtBuiltinFunctionCall -> name in arrayOf("msb", "lsb", "peek", "peekw", "mkword", "set_carry", "set_irqd", "clear_carry", "clear_irqd")
is PtContainmentCheck -> false
is PtFunctionCall -> false
is PtIdentifier -> true
is PtMachineRegister -> true
is PtMemoryByte -> address is PtNumber || address is PtIdentifier
is PtNumber -> true
is PtPrefix -> value.isSimple()
is PtRange -> true
is PtString -> true
is PtTypeCast -> value.isSimple()
}
}
/*
fun clone(): PtExpression {
fun withClonedChildrenFrom(orig: PtExpression, clone: PtExpression): PtExpression {
orig.children.forEach { clone.add((it as PtExpression).clone()) }
return clone
}
when(this) {
is PtAddressOf -> return withClonedChildrenFrom(this, PtAddressOf(position))
is PtArray -> return withClonedChildrenFrom(this, PtArray(type, position))
is PtArrayIndexer -> return withClonedChildrenFrom(this, PtArrayIndexer(type, position))
is PtBinaryExpression -> return withClonedChildrenFrom(this, PtBinaryExpression(operator, type, position))
is PtBuiltinFunctionCall -> return withClonedChildrenFrom(this, PtBuiltinFunctionCall(name, void, hasNoSideEffects, type, position))
is PtContainmentCheck -> return withClonedChildrenFrom(this, PtContainmentCheck(position))
is PtFunctionCall -> return withClonedChildrenFrom(this, PtFunctionCall(name, void, type, position))
is PtIdentifier -> return withClonedChildrenFrom(this, PtIdentifier(name, type, position))
is PtMachineRegister -> return withClonedChildrenFrom(this, PtMachineRegister(register, type, position))
is PtMemoryByte -> return withClonedChildrenFrom(this, PtMemoryByte(position))
is PtNumber -> return withClonedChildrenFrom(this, PtNumber(type, number, position))
is PtPrefix -> return withClonedChildrenFrom(this, PtPrefix(operator, type, position))
is PtRange -> return withClonedChildrenFrom(this, PtRange(type, position))
is PtString -> return withClonedChildrenFrom(this, PtString(value, encoding, position))
is PtTypeCast -> return withClonedChildrenFrom(this, PtTypeCast(type, position))
}
}
*/
}
class PtAddressOf(position: Position) : PtExpression(DataType.UWORD, position) {
val identifier: PtIdentifier
get() = children.single() as PtIdentifier
}
class PtArrayIndexer(elementType: DataType, position: Position): PtExpression(elementType, position) {
val variable: PtIdentifier
get() = children[0] as PtIdentifier
val index: PtExpression
get() = children[1] as PtExpression
init {
require(elementType in NumericDatatypes)
}
}
class PtArray(type: DataType, position: Position): PtExpression(type, position) {
override fun hashCode(): Int = Objects.hash(children, type)
override fun equals(other: Any?): Boolean {
if(other==null || other !is PtArray)
return false
return type==other.type && children == other.children
}
val size: Int
get() = children.size
}
class PtBuiltinFunctionCall(val name: String,
val void: Boolean,
val hasNoSideEffects: Boolean,
type: DataType,
position: Position) : PtExpression(type, position) {
init {
if(!void)
require(type!=DataType.UNDEFINED)
}
val args: List<PtExpression>
get() = children.map { it as PtExpression }
}
class PtBinaryExpression(val operator: String, type: DataType, position: Position): PtExpression(type, position) {
// note: "and", "or", "xor" do not occur anymore as operators. They've been replaced int the ast by their bitwise versions &, |, ^.
val left: PtExpression
get() = children[0] as PtExpression
val right: PtExpression
get() = children[1] as PtExpression
}
class PtContainmentCheck(position: Position): PtExpression(DataType.UBYTE, position) {
val element: PtExpression
get() = children[0] as PtExpression
val iterable: PtIdentifier
get() = children[1] as PtIdentifier
}
class PtFunctionCall(val name: String,
val void: Boolean,
type: DataType,
position: Position) : PtExpression(type, position) {
init {
if(!void)
require(type!=DataType.UNDEFINED)
}
val args: List<PtExpression>
get() = children.map { it as PtExpression }
}
class PtIdentifier(val name: String, type: DataType, position: Position) : PtExpression(type, position) {
override fun toString(): String {
return "[PtIdentifier:$name $type $position]"
}
fun copy() = PtIdentifier(name, type, position)
}
class PtMemoryByte(position: Position) : PtExpression(DataType.UBYTE, position) {
val address: PtExpression
get() = children.single() as PtExpression
}
class PtNumber(type: DataType, val number: Double, position: Position) : PtExpression(type, position) {
companion object {
fun fromBoolean(bool: Boolean, position: Position): PtNumber =
PtNumber(DataType.UBYTE, if(bool) 1.0 else 0.0, position)
}
init {
if(type==DataType.BOOL)
throw IllegalArgumentException("bool should have become ubyte @$position")
if(type!=DataType.FLOAT) {
val rounded = round(number)
if (rounded != number)
throw IllegalArgumentException("refused rounding of float to avoid loss of precision @$position")
}
}
override fun hashCode(): Int = Objects.hash(type, number)
override fun equals(other: Any?): Boolean {
if(other==null || other !is PtNumber)
return false
return number==other.number
}
operator fun compareTo(other: PtNumber): Int = number.compareTo(other.number)
override fun toString() = "PtNumber:$type:$number"
}
class PtPrefix(val operator: String, type: DataType, position: Position): PtExpression(type, position) {
val value: PtExpression
get() = children.single() as PtExpression
init {
// note: the "not" operator may no longer occur in the ast; not x should have been replaced with x==0
require(operator in setOf("+", "-", "~")) { "invalid prefix operator: $operator" }
}
}
class PtRange(type: DataType, position: Position) : PtExpression(type, position) {
val from: PtExpression
get() = children[0] as PtExpression
val to: PtExpression
get() = children[1] as PtExpression
val step: PtNumber
get() = children[2] as PtNumber
fun toConstantIntegerRange(): IntProgression? {
fun makeRange(fromVal: Int, toVal: Int, stepVal: Int): IntProgression {
return when {
fromVal <= toVal -> when {
stepVal <= 0 -> IntRange.EMPTY
stepVal == 1 -> fromVal..toVal
else -> fromVal..toVal step stepVal
}
else -> when {
stepVal >= 0 -> IntRange.EMPTY
stepVal == -1 -> fromVal downTo toVal
else -> fromVal downTo toVal step abs(stepVal)
}
}
}
val fromLv = from as? PtNumber
val toLv = to as? PtNumber
val stepLv = step as? PtNumber
if(fromLv==null || toLv==null || stepLv==null)
return null
val fromVal = fromLv.number.toInt()
val toVal = toLv.number.toInt()
val stepVal = stepLv.number.toInt()
return makeRange(fromVal, toVal, stepVal)
}
}
class PtString(val value: String, val encoding: Encoding, position: Position) : PtExpression(DataType.STR, position) {
override fun hashCode(): Int = Objects.hash(value, encoding)
override fun equals(other: Any?): Boolean {
if(other==null || other !is PtString)
return false
return value==other.value && encoding == other.encoding
}
}
class PtTypeCast(type: DataType, position: Position) : PtExpression(type, position) {
val value: PtExpression
get() = children.single() as PtExpression
}
// special node that isn't created from compiling user code, but used internally in the Intermediate Code
class PtMachineRegister(val register: Int, type: DataType, position: Position) : PtExpression(type, position)
fun constValue(expr: PtExpression): Double? = if(expr is PtNumber) expr.number else null
fun constIntValue(expr: PtExpression): Int? = if(expr is PtNumber) expr.number.toInt() else null

163
codeCore/src/prog8/code/ast/AstPrinter.kt Normal file
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@@ -0,0 +1,163 @@
package prog8.code.ast
import prog8.code.core.*
/**
* Produces readable text from a [PtNode] (AST node, usually starting with PtProgram as root),
* passing it as a String to the specified receiver function.
*/
fun printAst(root: PtNode, skipLibraries: Boolean, output: (text: String) -> Unit) {
fun type(dt: DataType) = "!${dt.name.lowercase()}!"
fun txt(node: PtNode): String {
return when(node) {
is PtAssignTarget -> "<target>"
is PtAssignment -> "<assign>"
is PtAugmentedAssign -> "<inplace-assign> ${node.operator}"
is PtBreakpoint -> "%breakpoint"
is PtConditionalBranch -> "if_${node.condition.name.lowercase()}"
is PtAddressOf -> "&"
is PtArray -> "array len=${node.children.size} ${type(node.type)}"
is PtArrayIndexer -> "<arrayindexer> ${type(node.type)}"
is PtBinaryExpression -> "<expr> ${node.operator} ${type(node.type)}"
is PtBuiltinFunctionCall -> {
val str = if(node.void) "void " else ""
str + node.name + "()"
}
is PtContainmentCheck -> "in"
is PtFunctionCall -> {
val str = if(node.void) "void " else ""
str + node.name + "()"
}
is PtIdentifier -> "${node.name} ${type(node.type)}"
is PtMachineRegister -> "VMREG#${node.register} ${type(node.type)}"
is PtMemoryByte -> "@()"
is PtNumber -> {
val numstr = if(node.type == DataType.FLOAT) node.number.toString() else node.number.toHex()
"$numstr ${type(node.type)}"
}
is PtPrefix -> node.operator
is PtRange -> "<range>"
is PtString -> "\"${node.value.escape()}\""
is PtTypeCast -> "as ${node.type.name.lowercase()}"
is PtForLoop -> "for"
is PtIfElse -> "ifelse"
is PtIncludeBinary -> "%incbin '${node.file}', ${node.offset}, ${node.length}"
is PtInlineAssembly -> {
if(node.isIR)
"%ir {{ ...${node.assembly.length} characters... }}"
else
"%asm {{ ...${node.assembly.length} characters... }}"
}
is PtJump -> {
if(node.identifier!=null)
"goto ${node.identifier.name}"
else if(node.address!=null)
"goto ${node.address.toHex()}"
else if(node.generatedLabel!=null)
"goto ${node.generatedLabel}"
else
"???"
}
is PtAsmSub -> {
val params = if (node.parameters.isEmpty()) "" else "...TODO ${node.parameters.size} PARAMS..."
val clobbers = if (node.clobbers.isEmpty()) "" else "clobbers ${node.clobbers}"
val returns = if (node.returns.isEmpty()) "" else (if (node.returns.size == 1) "-> ${node.returns[0].second.name.lowercase()}" else "-> ${node.returns.map { it.second.name.lowercase() }}")
val str = if (node.inline) "inline " else ""
if(node.address==null) {
str + "asmsub ${node.name}($params) $clobbers $returns"
} else {
str + "romsub ${node.address.toHex()} = ${node.name}($params) $clobbers $returns"
}
}
is PtBlock -> {
val addr = if(node.address==null) "" else "@${node.address.toHex()}"
val align = if(node.alignment==PtBlock.BlockAlignment.NONE) "" else "align=${node.alignment}"
"\nblock '${node.name}' $addr $align"
}
is PtConstant -> {
val value = if(node.type in IntegerDatatypes) node.value.toInt().toString() else node.value.toString()
"const ${node.type.name.lowercase()} ${node.name} = $value"
}
is PtLabel -> "${node.name}:"
is PtMemMapped -> {
if(node.type in ArrayDatatypes) {
val arraysize = if(node.arraySize==null) "" else node.arraySize.toString()
val eltType = ArrayToElementTypes.getValue(node.type)
"&${eltType.name.lowercase()}[$arraysize] ${node.name} = ${node.address.toHex()}"
} else {
"&${node.type.name.lowercase()} ${node.name} = ${node.address.toHex()}"
}
}
is PtSub -> {
val params = if (node.parameters.isEmpty()) "" else "...TODO ${node.parameters.size} PARAMS..."
var str = "sub ${node.name}($params) "
if(node.returntype!=null)
str += "-> ${node.returntype.name.lowercase()}"
str
}
is PtVariable -> {
val str = if(node.arraySize!=null) {
val eltType = ArrayToElementTypes.getValue(node.type)
"${eltType.name.lowercase()}[${node.arraySize}] ${node.name}"
}
else if(node.type in ArrayDatatypes) {
val eltType = ArrayToElementTypes.getValue(node.type)
"${eltType.name.lowercase()}[] ${node.name}"
}
else
"${node.type.name.lowercase()} ${node.name}"
if(node.value!=null)
str + " = " + txt(node.value)
else
str
}
is PtNodeGroup -> "<group>"
is PtNop -> "nop"
is PtPostIncrDecr -> "<post> ${node.operator}"
is PtProgram -> "PROGRAM ${node.name}"
is PtRepeatLoop -> "repeat"
is PtReturn -> "return"
is PtSubroutineParameter -> "${node.type.name.lowercase()} ${node.name}"
is PtWhen -> "when"
is PtWhenChoice -> {
if(node.isElse)
"else"
else
"->"
}
else -> throw InternalCompilerException("unrecognised ast node $node")
}
}
if(root is PtProgram) {
output(txt(root))
root.children.forEach {
walkAst(it) { node, depth ->
val txt = txt(node)
val library = if(node is PtBlock) node.library else node.definingBlock()?.library==true
if(!library || !skipLibraries) {
if (txt.isNotEmpty())
output(" ".repeat(depth) + txt(node))
}
}
}
println()
} else {
walkAst(root) { node, depth ->
val txt = txt(node)
val library = if(node is PtBlock) node.library else node.definingBlock()?.library==true
if(!library || !skipLibraries) {
if (txt.isNotEmpty())
output(" ".repeat(depth) + txt(node))
}
}
}
}
fun walkAst(root: PtNode, act: (node: PtNode, depth: Int) -> Unit) {
fun recurse(node: PtNode, depth: Int) {
act(node, depth)
node.children.forEach { recurse(it, depth+1) }
}
recurse(root, 0)
}

172
codeCore/src/prog8/code/ast/AstStatements.kt Normal file
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@@ -0,0 +1,172 @@
package prog8.code.ast
import prog8.code.core.*
sealed interface IPtSubroutine {
val name: String
}
class PtAsmSub(
name: String,
val address: UInt?,
val clobbers: Set<CpuRegister>,
val parameters: List<Pair<RegisterOrStatusflag, PtSubroutineParameter>>,
val returns: List<Pair<RegisterOrStatusflag, DataType>>,
val inline: Boolean,
position: Position
) : PtNamedNode(name, position), IPtSubroutine
class PtSub(
name: String,
val parameters: List<PtSubroutineParameter>,
val returntype: DataType?,
position: Position
) : PtNamedNode(name, position), IPtSubroutine {
init {
// params and return value should not be str
if(parameters.any{ it.type !in NumericDatatypes })
throw AssemblyError("non-numeric parameter")
if(returntype!=null && returntype !in NumericDatatypes)
throw AssemblyError("non-numeric returntype $returntype")
parameters.forEach { it.parent=this }
}
}
class PtSubroutineParameter(name: String, val type: DataType, position: Position): PtNamedNode(name, position)
sealed interface IPtAssignment {
val children: MutableList<PtNode>
val target: PtAssignTarget
get() = children[0] as PtAssignTarget
val value: PtExpression
get() = children[1] as PtExpression
}
class PtAssignment(position: Position) : PtNode(position), IPtAssignment
class PtAugmentedAssign(val operator: String, position: Position) : PtNode(position), IPtAssignment
class PtAssignTarget(position: Position) : PtNode(position) {
val identifier: PtIdentifier?
get() = children.single() as? PtIdentifier
val array: PtArrayIndexer?
get() = children.single() as? PtArrayIndexer
val memory: PtMemoryByte?
get() = children.single() as? PtMemoryByte
val type: DataType
get() {
return when(val tgt = children.single()) {
is PtIdentifier -> tgt.type
is PtArrayIndexer -> tgt.type
is PtMemoryByte -> tgt.type
else -> throw AssemblyError("weird target $tgt")
}
}
infix fun isSameAs(expression: PtExpression): Boolean = expression.isSameAs(this)
}
class PtConditionalBranch(val condition: BranchCondition, position: Position) : PtNode(position) {
val trueScope: PtNodeGroup
get() = children[0] as PtNodeGroup
val falseScope: PtNodeGroup
get() = children[1] as PtNodeGroup
}
class PtForLoop(position: Position) : PtNode(position) {
val variable: PtIdentifier
get() = children[0] as PtIdentifier
val iterable: PtExpression
get() = children[1] as PtExpression
val statements: PtNodeGroup
get() = children[2] as PtNodeGroup
}
class PtIfElse(position: Position) : PtNode(position) {
val condition: PtExpression
get() = children[0] as PtExpression
val ifScope: PtNodeGroup
get() = children[1] as PtNodeGroup
val elseScope: PtNodeGroup
get() = children[2] as PtNodeGroup
}
class PtJump(val identifier: PtIdentifier?,
val address: UInt?,
val generatedLabel: String?,
position: Position) : PtNode(position) {
init {
identifier?.let {it.parent = this }
}
}
class PtPostIncrDecr(val operator: String, position: Position) : PtNode(position) {
val target: PtAssignTarget
get() = children.single() as PtAssignTarget
}
class PtRepeatLoop(position: Position) : PtNode(position) {
val count: PtExpression
get() = children[0] as PtExpression
val statements: PtNodeGroup
get() = children[1] as PtNodeGroup
}
class PtReturn(position: Position) : PtNode(position) {
val hasValue = children.any()
val value: PtExpression?
get() {
return if(children.any())
children.single() as PtExpression
else
null
}
}
sealed interface IPtVariable {
val name: String
val type: DataType
}
class PtVariable(name: String, override val type: DataType, val zeropage: ZeropageWish, val value: PtExpression?, val arraySize: UInt?, position: Position) : PtNamedNode(name, position), IPtVariable {
init {
value?.let {it.parent=this}
}
}
class PtConstant(name: String, override val type: DataType, val value: Double, position: Position) : PtNamedNode(name, position), IPtVariable
class PtMemMapped(name: String, override val type: DataType, val address: UInt, val arraySize: UInt?, position: Position) : PtNamedNode(name, position), IPtVariable
class PtWhen(position: Position) : PtNode(position) {
val value: PtExpression
get() = children[0] as PtExpression
val choices: PtNodeGroup
get() = children[1] as PtNodeGroup
}
class PtWhenChoice(val isElse: Boolean, position: Position) : PtNode(position) {
val values: PtNodeGroup
get() = children[0] as PtNodeGroup
val statements: PtNodeGroup
get() = children[1] as PtNodeGroup
}

183
codeCore/src/prog8/code/core/BuiltinFunctions.kt
View File

@@ -1,7 +1,7 @@
package prog8.code.core
class ReturnConvention(val dt: BaseDataType?, val reg: RegisterOrPair?)
class ParamConvention(val dt: BaseDataType, val reg: RegisterOrPair?, val variable: Boolean)
class ReturnConvention(val dt: DataType?, val reg: RegisterOrPair?, val floatFac1: Boolean)
class ParamConvention(val dt: DataType, val reg: RegisterOrPair?, val variable: Boolean)
class CallConvention(val params: List<ParamConvention>, val returns: ReturnConvention) {
override fun toString(): String {
val paramConvs = params.mapIndexed { index, it ->
@@ -13,43 +13,35 @@ class CallConvention(val params: List<ParamConvention>, val returns: ReturnConve
}
val returnConv =
when {
returns.reg == RegisterOrPair.FAC1 -> "floatFAC1"
returns.reg != null -> returns.reg.toString()
returns.reg!=null -> returns.reg.toString()
returns.floatFac1 -> "floatFAC1"
else -> "<no returnvalue>"
}
return "CallConvention[" + paramConvs.joinToString() + " ; returns: $returnConv]"
}
}
class FParam(val name: String, vararg val possibleDatatypes: BaseDataType)
private val IterableDatatypes = arrayOf(BaseDataType.STR, BaseDataType.ARRAY, BaseDataType.ARRAY_SPLITW)
private val IntegerDatatypes = arrayOf(BaseDataType.UBYTE, BaseDataType.BYTE, BaseDataType.UWORD, BaseDataType.WORD, BaseDataType.LONG)
private val NumericDatatypes = arrayOf(BaseDataType.UBYTE, BaseDataType.BYTE, BaseDataType.UWORD, BaseDataType.WORD, BaseDataType.LONG, BaseDataType.FLOAT)
class FParam(val name: String, val possibleDatatypes: Array<DataType>)
class FSignature(val pure: Boolean, // does it have side effects?
val returnType: BaseDataType?,
vararg val parameters: FParam) {
val parameters: List<FParam>,
val returnType: DataType?) {
fun callConvention(actualParamTypes: List<BaseDataType>): CallConvention {
fun callConvention(actualParamTypes: List<DataType>): CallConvention {
val returns: ReturnConvention = when (returnType) {
BaseDataType.UBYTE, BaseDataType.BYTE -> ReturnConvention(returnType, RegisterOrPair.A)
BaseDataType.UWORD, BaseDataType.WORD -> ReturnConvention(returnType, RegisterOrPair.AY)
BaseDataType.LONG -> ReturnConvention(returnType, RegisterOrPair.R14R15_32)
BaseDataType.FLOAT -> ReturnConvention(returnType, RegisterOrPair.FAC1)
in IterableDatatypes -> ReturnConvention(returnType!!, RegisterOrPair.AY)
null -> ReturnConvention(null, null)
DataType.UBYTE, DataType.BYTE -> ReturnConvention(returnType, RegisterOrPair.A, false)
DataType.UWORD, DataType.WORD -> ReturnConvention(returnType, RegisterOrPair.AY, false)
DataType.FLOAT -> ReturnConvention(returnType, null, true)
in PassByReferenceDatatypes -> ReturnConvention(returnType!!, RegisterOrPair.AY, false)
null -> ReturnConvention(null, null, false)
else -> {
// return type depends on arg type
when (val paramType = actualParamTypes.first()) {
BaseDataType.UBYTE, BaseDataType.BYTE -> ReturnConvention(paramType, RegisterOrPair.A)
BaseDataType.UWORD, BaseDataType.WORD -> ReturnConvention(paramType, RegisterOrPair.AY)
BaseDataType.LONG -> ReturnConvention(returnType, RegisterOrPair.R14R15_32)
BaseDataType.FLOAT -> ReturnConvention(paramType, RegisterOrPair.FAC1)
in IterableDatatypes -> ReturnConvention(paramType, RegisterOrPair.AY)
else -> ReturnConvention(paramType, null)
DataType.UBYTE, DataType.BYTE -> ReturnConvention(paramType, RegisterOrPair.A, false)
DataType.UWORD, DataType.WORD -> ReturnConvention(paramType, RegisterOrPair.AY, false)
DataType.FLOAT -> ReturnConvention(paramType, null, true)
in PassByReferenceDatatypes -> ReturnConvention(paramType, RegisterOrPair.AY, false)
else -> ReturnConvention(paramType, null, false)
}
}
}
@@ -57,28 +49,16 @@ class FSignature(val pure: Boolean, // does it have side effects?
return when {
actualParamTypes.isEmpty() -> CallConvention(emptyList(), returns)
actualParamTypes.size==1 -> {
// One parameter goes via register/registerpair.
// this avoids repeated code for every caller to store the value in the subroutine's argument variable.
// (that store is still done, but only coded once at the start at the subroutine itself rather than at every call site).
// one parameter goes via register/registerpair
val paramConv = when(val paramType = actualParamTypes[0]) {
BaseDataType.UBYTE, BaseDataType.BYTE -> ParamConvention(paramType, RegisterOrPair.A, false)
BaseDataType.UWORD, BaseDataType.WORD -> ParamConvention(paramType, RegisterOrPair.AY, false)
BaseDataType.LONG -> ParamConvention(paramType, RegisterOrPair.R14R15_32, false)
BaseDataType.FLOAT -> ParamConvention(paramType, RegisterOrPair.AY, false) // NOTE: for builtin functions, floating point arguments are passed by reference (so you get a pointer in AY)
in IterableDatatypes -> ParamConvention(paramType, RegisterOrPair.AY, false)
DataType.UBYTE, DataType.BYTE -> ParamConvention(paramType, RegisterOrPair.A, false)
DataType.UWORD, DataType.WORD -> ParamConvention(paramType, RegisterOrPair.AY, false)
DataType.FLOAT -> ParamConvention(paramType, RegisterOrPair.AY, false)
in PassByReferenceDatatypes -> ParamConvention(paramType, RegisterOrPair.AY, false)
else -> ParamConvention(paramType, null, false)
}
CallConvention(listOf(paramConv), returns)
}
actualParamTypes.size==2 && (actualParamTypes[0].isByte && actualParamTypes[1].isWord) -> {
TODO("opportunity to pass word+byte arguments in A,Y and X registers but not implemented yet")
}
actualParamTypes.size==2 && (actualParamTypes[0].isWord && actualParamTypes[1].isByte) -> {
TODO("opportunity to pass word+byte arguments in A,Y and X registers but not implemented yet")
}
actualParamTypes.size==3 && actualParamTypes.all { it.isByte } -> {
TODO("opportunity to pass 3 byte arguments in A,Y and X registers but not implemented yet")
}
else -> {
// multiple parameters go via variables
val paramConvs = actualParamTypes.map { ParamConvention(it, null, true) }
@@ -88,83 +68,46 @@ class FSignature(val pure: Boolean, // does it have side effects?
}
}
val BuiltinFunctions: Map<String, FSignature> = mapOf(
"setlsb" to FSignature(false, null, FParam("variable", BaseDataType.WORD, BaseDataType.UWORD), FParam("value", BaseDataType.BYTE, BaseDataType.UBYTE)),
"setmsb" to FSignature(false, null, FParam("variable", BaseDataType.WORD, BaseDataType.UWORD), FParam("value", BaseDataType.BYTE, BaseDataType.UBYTE)),
"rol" to FSignature(false, null, FParam("item", BaseDataType.UBYTE, BaseDataType.UWORD, BaseDataType.LONG)),
"ror" to FSignature(false, null, FParam("item", BaseDataType.UBYTE, BaseDataType.UWORD, BaseDataType.LONG)),
"rol2" to FSignature(false, null, FParam("item", BaseDataType.UBYTE, BaseDataType.UWORD, BaseDataType.LONG)),
"ror2" to FSignature(false, null, FParam("item", BaseDataType.UBYTE, BaseDataType.UWORD, BaseDataType.LONG)),
"cmp" to FSignature(false, null, FParam("value1", *IntegerDatatypes), FParam("value2", *NumericDatatypes)), // cmp returns result in the cpu status flags, but not asa proper return value
"prog8_lib_stringcompare" to FSignature(true, BaseDataType.BYTE, FParam("str1", BaseDataType.STR), FParam("str2", BaseDataType.STR)),
"prog8_lib_square_byte" to FSignature(true, BaseDataType.UBYTE, FParam("value", BaseDataType.BYTE, BaseDataType.UBYTE)),
"prog8_lib_square_word" to FSignature(true, BaseDataType.UWORD, FParam("value", BaseDataType.WORD, BaseDataType.UWORD)),
"prog8_lib_structalloc" to FSignature(true, BaseDataType.UWORD),
"abs" to FSignature(true, null, FParam("value", *NumericDatatypes)),
"abs__byte" to FSignature(true, BaseDataType.UBYTE, FParam("value", BaseDataType.BYTE)),
"abs__word" to FSignature(true, BaseDataType.UWORD, FParam("value", BaseDataType.WORD)),
"abs__long" to FSignature(true, BaseDataType.LONG, FParam("value", BaseDataType.LONG)),
"abs__float" to FSignature(true, BaseDataType.FLOAT, FParam("value", BaseDataType.FLOAT)),
"len" to FSignature(true, BaseDataType.UWORD, FParam("values", *IterableDatatypes)),
"sizeof" to FSignature(true, BaseDataType.UBYTE, FParam("object", *(BaseDataType.entries - BaseDataType.STRUCT_INSTANCE).toTypedArray())),
"offsetof" to FSignature(true, BaseDataType.UBYTE, FParam("field", BaseDataType.UBYTE)),
"sgn" to FSignature(true, BaseDataType.BYTE, FParam("value", *NumericDatatypes)),
"sqrt" to FSignature(true, null, FParam("value", *NumericDatatypes)),
"sqrt__ubyte" to FSignature(true, BaseDataType.UBYTE, FParam("value", BaseDataType.UBYTE)),
"sqrt__uword" to FSignature(true, BaseDataType.UBYTE, FParam("value", BaseDataType.UWORD)),
"sqrt__float" to FSignature(true, BaseDataType.FLOAT, FParam("value", BaseDataType.FLOAT)),
"divmod" to FSignature(false, null, FParam("dividend", BaseDataType.UBYTE, BaseDataType.UWORD), FParam("divisor", BaseDataType.UBYTE, BaseDataType.UWORD), FParam("quotient", BaseDataType.UBYTE, BaseDataType.UWORD), FParam("remainder", BaseDataType.UBYTE, BaseDataType.UWORD)),
"divmod__ubyte" to FSignature(false, null, FParam("dividend", BaseDataType.UBYTE), FParam("divisor", BaseDataType.UBYTE), FParam("quotient", BaseDataType.UBYTE), FParam("remainder", BaseDataType.UBYTE)),
"divmod__uword" to FSignature(false, null, FParam("dividend", BaseDataType.UWORD), FParam("divisor", BaseDataType.UWORD), FParam("quotient", BaseDataType.UWORD), FParam("remainder", BaseDataType.UWORD)),
"lsb" to FSignature(true, BaseDataType.UBYTE, FParam("value", BaseDataType.UWORD, BaseDataType.WORD, BaseDataType.LONG)),
"lsb__long" to FSignature(true, BaseDataType.UBYTE, FParam("value", BaseDataType.LONG)),
"msb" to FSignature(true, BaseDataType.UBYTE, FParam("value", BaseDataType.UWORD, BaseDataType.WORD, BaseDataType.LONG)),
"msb__long" to FSignature(true, BaseDataType.UBYTE, FParam("value", BaseDataType.LONG)),
"lsw" to FSignature(true, BaseDataType.UWORD, FParam("value", BaseDataType.UWORD, BaseDataType.WORD, BaseDataType.LONG)),
"msw" to FSignature(true, BaseDataType.UWORD, FParam("value", BaseDataType.UWORD, BaseDataType.WORD, BaseDataType.LONG)),
"mkword" to FSignature(true, BaseDataType.UWORD, FParam("msb", BaseDataType.UBYTE), FParam("lsb", BaseDataType.UBYTE)),
"mklong" to FSignature(true, BaseDataType.LONG, FParam("msb", BaseDataType.UBYTE), FParam("b2", BaseDataType.UBYTE), FParam("b1", BaseDataType.UBYTE), FParam("lsb", BaseDataType.UBYTE)),
"mklong2" to FSignature(true, BaseDataType.LONG, FParam("msw", BaseDataType.UWORD), FParam("lsw", BaseDataType.UWORD)),
"clamp" to FSignature(true, null, FParam("value", BaseDataType.BYTE), FParam("minimum", BaseDataType.BYTE), FParam("maximum", BaseDataType.BYTE)),
"clamp__byte" to FSignature(true, BaseDataType.BYTE, FParam("value", BaseDataType.BYTE), FParam("minimum", BaseDataType.BYTE), FParam("maximum", BaseDataType.BYTE)),
"clamp__ubyte" to FSignature(true, BaseDataType.UBYTE, FParam("value", BaseDataType.UBYTE), FParam("minimum", BaseDataType.UBYTE), FParam("maximum", BaseDataType.UBYTE)),
"clamp__word" to FSignature(true, BaseDataType.WORD, FParam("value", BaseDataType.WORD), FParam("minimum", BaseDataType.WORD), FParam("maximum", BaseDataType.WORD)),
"clamp__uword" to FSignature(true, BaseDataType.UWORD, FParam("value", BaseDataType.UWORD), FParam("minimum", BaseDataType.UWORD), FParam("maximum", BaseDataType.UWORD)),
"clamp__long" to FSignature(true, BaseDataType.LONG, FParam("value", BaseDataType.LONG), FParam("minimum", BaseDataType.LONG), FParam("maximum", BaseDataType.LONG)),
"min" to FSignature(true, null, FParam("val1", BaseDataType.BYTE), FParam("val2", BaseDataType.BYTE)),
"min__byte" to FSignature(true, BaseDataType.BYTE, FParam("val1", BaseDataType.BYTE), FParam("val2", BaseDataType.BYTE)),
"min__ubyte" to FSignature(true, BaseDataType.UBYTE, FParam("val1", BaseDataType.UBYTE), FParam("val2", BaseDataType.UBYTE)),
"min__word" to FSignature(true, BaseDataType.WORD, FParam("val1", BaseDataType.WORD), FParam("val2", BaseDataType.WORD)),
"min__uword" to FSignature(true, BaseDataType.UWORD, FParam("val1", BaseDataType.UWORD), FParam("val2", BaseDataType.UWORD)),
"min__long" to FSignature(true, BaseDataType.LONG, FParam("val1", BaseDataType.LONG), FParam("val2", BaseDataType.LONG)),
"max" to FSignature(true, null, FParam("val1", BaseDataType.BYTE), FParam("val2", BaseDataType.BYTE)),
"max__byte" to FSignature(true, BaseDataType.BYTE, FParam("val1", BaseDataType.BYTE), FParam("val2", BaseDataType.BYTE)),
"max__ubyte" to FSignature(true, BaseDataType.UBYTE, FParam("val1", BaseDataType.UBYTE), FParam("val2", BaseDataType.UBYTE)),
"max__word" to FSignature(true, BaseDataType.WORD, FParam("val1", BaseDataType.WORD), FParam("val2", BaseDataType.WORD)),
"max__uword" to FSignature(true, BaseDataType.UWORD, FParam("val1", BaseDataType.UWORD), FParam("val2", BaseDataType.UWORD)),
"max__long" to FSignature(true, BaseDataType.LONG, FParam("val1", BaseDataType.LONG), FParam("val2", BaseDataType.LONG)),
"peek" to FSignature(true, BaseDataType.UBYTE, FParam("address", BaseDataType.UWORD)),
"peekbool" to FSignature(true, BaseDataType.BOOL, FParam("address", BaseDataType.UWORD)),
"peekw" to FSignature(true, BaseDataType.UWORD, FParam("address", BaseDataType.UWORD)),
"peekl" to FSignature(true, BaseDataType.LONG, FParam("address", BaseDataType.UWORD)),
"peekf" to FSignature(true, BaseDataType.FLOAT, FParam("address", BaseDataType.UWORD)),
"poke" to FSignature(false, null, FParam("address", BaseDataType.UWORD), FParam("value", BaseDataType.UBYTE, BaseDataType.BYTE)),
"pokebool" to FSignature(false, null, FParam("address", BaseDataType.UWORD), FParam("value", BaseDataType.BOOL)),
"pokebowl" to FSignature(false, null, FParam("address", BaseDataType.UWORD), FParam("value", BaseDataType.BOOL)),
"pokew" to FSignature(false, null, FParam("address", BaseDataType.UWORD), FParam("value", BaseDataType.UWORD, BaseDataType.WORD)),
"pokel" to FSignature(false, null, FParam("address", BaseDataType.UWORD), FParam("value", BaseDataType.LONG)),
"pokef" to FSignature(false, null, FParam("address", BaseDataType.UWORD), FParam("value", BaseDataType.FLOAT)),
"pokemon" to FSignature(false, BaseDataType.UBYTE, FParam("address", BaseDataType.UWORD), FParam("value", BaseDataType.UBYTE)),
"rsave" to FSignature(false, null),
"rrestore" to FSignature(false, null),
"memory" to FSignature(true, BaseDataType.UWORD, FParam("name", BaseDataType.STR), FParam("size", BaseDataType.UWORD), FParam("alignment", BaseDataType.UWORD)),
"callfar" to FSignature(false, BaseDataType.UWORD, FParam("bank", BaseDataType.UBYTE), FParam("address", BaseDataType.UWORD), FParam("arg", BaseDataType.UWORD)),
"callfar2" to FSignature(false, BaseDataType.UWORD, FParam("bank", BaseDataType.UBYTE), FParam("address", BaseDataType.UWORD), FParam("argA", BaseDataType.UBYTE), FParam("argX", BaseDataType.UBYTE), FParam("argY", BaseDataType.UBYTE), FParam("argC", BaseDataType.BOOL)),
"call" to FSignature(false, BaseDataType.UWORD, FParam("address", BaseDataType.UWORD)),
// this set of function have no return value and operate in-place:
"rol" to FSignature(false, listOf(FParam("item", arrayOf(DataType.UBYTE, DataType.UWORD))), null),
"ror" to FSignature(false, listOf(FParam("item", arrayOf(DataType.UBYTE, DataType.UWORD))), null),
"rol2" to FSignature(false, listOf(FParam("item", arrayOf(DataType.UBYTE, DataType.UWORD))), null),
"ror2" to FSignature(false, listOf(FParam("item", arrayOf(DataType.UBYTE, DataType.UWORD))), null),
"sort" to FSignature(false, listOf(FParam("array", ArrayDatatypes)), null),
"reverse" to FSignature(false, listOf(FParam("array", ArrayDatatypes)), null),
// cmp returns a status in the carry flag, but not a proper return value
"cmp" to FSignature(false, listOf(FParam("value1", IntegerDatatypesNoBool), FParam("value2", NumericDatatypesNoBool)), null),
"prog8_lib_stringcompare" to FSignature(true, listOf(FParam("str1", arrayOf(DataType.STR)), FParam("str2", arrayOf(DataType.STR))), DataType.BYTE),
"abs" to FSignature(true, listOf(FParam("value", IntegerDatatypesNoBool)), DataType.UWORD),
"len" to FSignature(true, listOf(FParam("values", IterableDatatypes)), DataType.UWORD),
// normal functions follow:
"sizeof" to FSignature(true, listOf(FParam("object", DataType.values())), DataType.UBYTE),
"sgn" to FSignature(true, listOf(FParam("value", NumericDatatypesNoBool)), DataType.BYTE),
"sqrt16" to FSignature(true, listOf(FParam("value", arrayOf(DataType.UWORD))), DataType.UBYTE),
"divmod" to FSignature(false, listOf(FParam("number", arrayOf(DataType.UBYTE)), FParam("divident", arrayOf(DataType.UBYTE)), FParam("division", arrayOf(DataType.UBYTE)), FParam("remainder", arrayOf(DataType.UBYTE))), null),
"divmodw" to FSignature(false, listOf(FParam("number", arrayOf(DataType.UWORD)), FParam("divident", arrayOf(DataType.UWORD)), FParam("division", arrayOf(DataType.UWORD)), FParam("remainder", arrayOf(DataType.UWORD))), null),
"any" to FSignature(true, listOf(FParam("values", ArrayDatatypes)), DataType.UBYTE),
"all" to FSignature(true, listOf(FParam("values", ArrayDatatypes)), DataType.UBYTE),
"lsb" to FSignature(true, listOf(FParam("value", arrayOf(DataType.UWORD, DataType.WORD))), DataType.UBYTE),
"msb" to FSignature(true, listOf(FParam("value", arrayOf(DataType.UWORD, DataType.WORD))), DataType.UBYTE),
"mkword" to FSignature(true, listOf(FParam("msb", arrayOf(DataType.UBYTE)), FParam("lsb", arrayOf(DataType.UBYTE))), DataType.UWORD),
"peek" to FSignature(true, listOf(FParam("address", arrayOf(DataType.UWORD))), DataType.UBYTE),
"peekw" to FSignature(true, listOf(FParam("address", arrayOf(DataType.UWORD))), DataType.UWORD),
"poke" to FSignature(false, listOf(FParam("address", arrayOf(DataType.UWORD)), FParam("value", arrayOf(DataType.UBYTE))), null),
"pokemon" to FSignature(false, listOf(FParam("address", arrayOf(DataType.UWORD)), FParam("value", arrayOf(DataType.UBYTE))), null),
"pokew" to FSignature(false, listOf(FParam("address", arrayOf(DataType.UWORD)), FParam("value", arrayOf(DataType.UWORD))), null),
"pop" to FSignature(false, listOf(FParam("target", ByteDatatypes)), null),
"popw" to FSignature(false, listOf(FParam("target", WordDatatypes)), null),
"push" to FSignature(false, listOf(FParam("value", ByteDatatypes)), null),
"pushw" to FSignature(false, listOf(FParam("value", WordDatatypes)), null),
"rsave" to FSignature(false, emptyList(), null),
"rsavex" to FSignature(false, emptyList(), null),
"rrestore" to FSignature(false, emptyList(), null),
"rrestorex" to FSignature(false, emptyList(), null),
"memory" to FSignature(true, listOf(FParam("name", arrayOf(DataType.STR)), FParam("size", arrayOf(DataType.UWORD)), FParam("alignment", arrayOf(DataType.UWORD))), DataType.UWORD),
"callfar" to FSignature(false, listOf(FParam("bank", arrayOf(DataType.UBYTE)), FParam("address", arrayOf(DataType.UWORD)), FParam("arg", arrayOf(DataType.UWORD))), DataType.UWORD),
)
val InplaceModifyingBuiltinFunctions = setOf(
"setlsb", "setmsb",
"rol", "ror", "rol2", "ror2",
"divmod", "divmod__ubyte", "divmod__uword"
)
val InplaceModifyingBuiltinFunctions = setOf("rol", "ror", "rol2", "ror2", "sort", "reverse")

26
codeCore/src/prog8/code/core/CompilationOptions.kt
View File

@@ -8,38 +8,24 @@ class CompilationOptions(val output: OutputType,
val launcher: CbmPrgLauncherType,
val zeropage: ZeropageType,
val zpReserved: List<UIntRange>,
val zpAllowed: List<UIntRange>,
val floats: Boolean,
val noSysInit: Boolean,
val romable: Boolean,
val compTarget: ICompilationTarget,
val compilerVersion: String,
// these are set later, based on command line arguments or options in the source code:
var loadAddress: UInt,
var memtopAddress: UInt,
var warnSymbolShadowing: Boolean = false,
var slowCodegenWarnings: Boolean = false,
var optimize: Boolean = false,
var optimizeFloatExpressions: Boolean = false,
var asmQuiet: Boolean = false,
var asmListfile: Boolean = false,
var includeSourcelines: Boolean = false,
var dumpVariables: Boolean = false,
var dumpSymbols: Boolean = false,
var experimentalCodegen: Boolean = false,
var varsHighBank: Int? = null,
var varsGolden: Boolean = false,
var slabsHighBank: Int? = null,
var slabsGolden: Boolean = false,
var breakpointCpuInstruction: String? = null,
var ignoreFootguns: Boolean = false,
var varsHigh: Boolean = false,
var useNewExprCode: Boolean = false,
var evalStackBaseAddress: UInt? = null,
var outputDir: Path = Path(""),
var quiet: Boolean = false,
var symbolDefs: Map<String, String> = emptyMap()
) {
init {
compTarget.initializeMemoryAreas(this)
}
companion object {
val AllZeropageAllowed: List<UIntRange> = listOf(0u..255u)
compTarget.machine.initializeMemoryAreas(this)
}
}

14
codeCore/src/prog8/code/core/Conversions.kt
View File

@@ -1,26 +1,20 @@
package prog8.code.core
import kotlin.math.abs
import kotlin.math.pow
val powersOfTwoFloat = (0..16).map { (2.0).pow(it) }.toTypedArray()
val negativePowersOfTwoFloat = powersOfTwoFloat.map { -it }.toTypedArray()
val powersOfTwoInt = (0..16).map { 2.0.pow(it).toInt() }.toTypedArray()
fun Number.toHex(): String {
// 0..15 -> "0".."15"
// 16..255 -> "$10".."$ff"
// 256..65536 -> "$0100".."$ffff"
// larger -> "$12345678"
// negative values are prefixed with '-'.
val integer = this.toLong()
val integer = this.toInt()
if(integer<0)
return '-' + abs(integer).toHex()
return when (integer) {
in 0 until 16 -> integer.toString()
in 0 until 0x100 -> "$"+integer.toString(16).padStart(2,'0')
in 0 until 0x10000 -> "$"+integer.toString(16).padStart(4,'0')
else -> "$"+integer.toString(16).padStart(8,'0')
else -> throw IllegalArgumentException("number too large for 16 bits $this")
}
}
@@ -28,12 +22,11 @@ fun UInt.toHex(): String {
// 0..15 -> "0".."15"
// 16..255 -> "$10".."$ff"
// 256..65536 -> "$0100".."$ffff"
// larger -> "$12345678"
return when (this) {
in 0u until 16u -> this.toString()
in 0u until 0x100u -> "$"+this.toString(16).padStart(2,'0')
in 0u until 0x10000u -> "$"+this.toString(16).padStart(4,'0')
else -> "$"+this.toString(16).padStart(8,'0')
else -> throw IllegalArgumentException("number too large for 16 bits $this")
}
}
@@ -65,7 +58,6 @@ fun String.unescape(): String {
'\\' -> '\\'
'n' -> '\n'
'r' -> '\r'
't' -> '\t'
'"' -> '"'
'\'' -> '\''
'u' -> {

508
codeCore/src/prog8/code/core/Enumerations.kt
View File

@@ -1,388 +1,58 @@
package prog8.code.core
import java.util.*
enum class BaseDataType {
UBYTE, // pass by value 8 bits unsigned
BYTE, // pass by value 8 bits signed
UWORD, // pass by value 16 bits unsigned
WORD, // pass by value 16 bits signed
LONG, // pass by value 32 bits signed
FLOAT, // pass by value machine dependent
BOOL, // pass by value bit 0 of an 8-bit byte
enum class DataType {
UBYTE, // pass by value
BYTE, // pass by value
UWORD, // pass by value
WORD, // pass by value
FLOAT, // pass by value
BOOL, // pass by value
STR, // pass by reference
ARRAY, // pass by reference, subtype is the element type
ARRAY_SPLITW, // pass by reference, split word layout, subtype is the element type (restricted to word types)
POINTER, // typed pointer, subtype is whatever type is pointed to
STRUCT_INSTANCE, // the actual instance of a struct (not directly supported in the language yet, but we need its type)
ARRAY_POINTER, // array of pointers (uwords), subtype is whatever type each element points to
ARRAY_UB, // pass by reference
ARRAY_B, // pass by reference
ARRAY_UW, // pass by reference
ARRAY_W, // pass by reference
ARRAY_F, // pass by reference
ARRAY_BOOL, // pass by reference
UNDEFINED;
/**
* is the type assignable to the given other type (perhaps via a typecast) without loss of precision?
*/
infix fun isAssignableTo(targetType: DataType) =
when(this) {
BOOL -> targetType.oneOf(BOOL, BYTE, UBYTE, WORD, UWORD, FLOAT)
UBYTE -> targetType.oneOf(UBYTE, WORD, UWORD, FLOAT, BOOL)
BYTE -> targetType.oneOf(BYTE, WORD, FLOAT)
UWORD -> targetType.oneOf(UWORD, FLOAT)
WORD -> targetType.oneOf(WORD, FLOAT)
FLOAT -> targetType.oneOf(FLOAT)
STR -> targetType.oneOf(STR, UWORD)
in ArrayDatatypes -> targetType == this
else -> false
}
fun largerSizeThan(other: BaseDataType) =
fun oneOf(vararg types: DataType) = this in types
infix fun largerThan(other: DataType) =
when {
this == other -> false
this.isByteOrBool -> false
this.isWord -> other.isByteOrBool
this == LONG -> other.isByteOrBool || other.isWord
this == STR && other == UWORD || this == UWORD && other == STR -> false
this.isArray && other.isArray -> false
this.isArray -> other != FLOAT
this == STR -> other != FLOAT
this.isPointer -> other.isByteOrBool
this in ByteDatatypes -> false
this in WordDatatypes -> other in ByteDatatypes
this== STR && other== UWORD || this== UWORD && other== STR -> false
else -> true
}
fun equalsSize(other: BaseDataType) =
infix fun equalsSize(other: DataType) =
when {
this == other -> true
this.isArray && other.isArray -> true
this.isByteOrBool -> other.isByteOrBool
this.isWord -> other.isWord || other.isPointer
this.isPointer -> other.isWord
this == STR && other== UWORD || this== UWORD && other== STR -> true
this == STR && other.isArray -> true
this.isArray && other == STR -> true
this in ByteDatatypes -> other in ByteDatatypes
this in WordDatatypes -> other in WordDatatypes
this== STR && other== UWORD || this== UWORD && other== STR -> true
else -> false
}
}
val BaseDataType.isByte get() = this in arrayOf(BaseDataType.UBYTE, BaseDataType.BYTE)
val BaseDataType.isByteOrBool get() = this in arrayOf(BaseDataType.UBYTE, BaseDataType.BYTE, BaseDataType.BOOL)
val BaseDataType.isWord get() = this in arrayOf(BaseDataType.UWORD, BaseDataType.WORD)
val BaseDataType.isLong get() = this == BaseDataType.LONG
val BaseDataType.isInteger get() = this in arrayOf(BaseDataType.UBYTE, BaseDataType.BYTE, BaseDataType.UWORD, BaseDataType.WORD, BaseDataType.LONG)
val BaseDataType.isIntegerOrBool get() = this in arrayOf(BaseDataType.UBYTE, BaseDataType.BYTE, BaseDataType.UWORD, BaseDataType.WORD, BaseDataType.LONG, BaseDataType.BOOL)
val BaseDataType.isWordOrByteOrBool get() = this in arrayOf(BaseDataType.UBYTE, BaseDataType.BYTE, BaseDataType.UWORD, BaseDataType.WORD, BaseDataType.BOOL)
val BaseDataType.isNumeric get() = this == BaseDataType.FLOAT || this.isInteger
val BaseDataType.isNumericOrBool get() = this == BaseDataType.BOOL || this.isNumeric
val BaseDataType.isSigned get() = this in arrayOf(BaseDataType.BYTE, BaseDataType.WORD, BaseDataType.LONG, BaseDataType.FLOAT)
val BaseDataType.isArray get() = this == BaseDataType.ARRAY || this == BaseDataType.ARRAY_SPLITW || this == BaseDataType.ARRAY_POINTER
val BaseDataType.isPointer get() = this == BaseDataType.POINTER
val BaseDataType.isStructInstance get() = this == BaseDataType.STRUCT_INSTANCE
val BaseDataType.isPointerArray get() = this == BaseDataType.ARRAY_POINTER
val BaseDataType.isSplitWordArray get() = this == BaseDataType.ARRAY_SPLITW || this == BaseDataType.ARRAY_POINTER // pointer arrays are also always stored as split uwords
val BaseDataType.isIterable get() = this in arrayOf(BaseDataType.STR, BaseDataType.ARRAY, BaseDataType.ARRAY_SPLITW, BaseDataType.ARRAY_POINTER)
val BaseDataType.isPassByRef get() = this.isIterable && !this.isPointer
val BaseDataType.isPassByValue get() = !this.isIterable || this.isPointer
interface ISubType {
val scopedNameString: String
fun memsize(sizer: IMemSizer): Int
fun sameas(other: ISubType): Boolean
fun getFieldType(name: String): DataType?
}
class DataType private constructor(val base: BaseDataType, val sub: BaseDataType?, var subType: ISubType?, var subTypeFromAntlr: List<String>?=null) {
init {
when {
base.isPointerArray -> {
require(sub!=null || subType!=null || subTypeFromAntlr!=null)
}
base.isArray -> {
require(sub != null && subType==null && subTypeFromAntlr==null)
if(base.isSplitWordArray)
require(sub == BaseDataType.UWORD || sub == BaseDataType.WORD)
}
base==BaseDataType.STR -> require(sub==BaseDataType.UBYTE) { "string subtype should be ubyte" }
base!=BaseDataType.POINTER -> require(sub == null) { "only string, array and pointer base types can have a subtype"}
else -> {
require(sub == null || (subType == null && subTypeFromAntlr == null)) {
"sub and subtype can't both be set"
}
}
}
}
override fun equals(other: Any?): Boolean {
if (this === other) return true
if (other !is DataType) return false
return base == other.base && sub == other.sub && (subType==other.subType || subType!!.sameas(other.subType!!))
}
override fun hashCode(): Int = Objects.hash(base, sub, subType)
fun setActualSubType(actualSubType: ISubType) {
subType = actualSubType
subTypeFromAntlr = null
}
companion object {
val UBYTE = DataType(BaseDataType.UBYTE, null, null)
val BYTE = DataType(BaseDataType.BYTE, null, null)
val UWORD = DataType(BaseDataType.UWORD, null, null)
val WORD = DataType(BaseDataType.WORD, null, null)
val LONG = DataType(BaseDataType.LONG, null, null)
val FLOAT = DataType(BaseDataType.FLOAT, null, null)
val BOOL = DataType(BaseDataType.BOOL, null, null)
val STR = DataType(BaseDataType.STR, BaseDataType.UBYTE, null)
val UNDEFINED = DataType(BaseDataType.UNDEFINED, null, null)
private val simpletypes = mapOf(
BaseDataType.UBYTE to DataType(BaseDataType.UBYTE, null, null),
BaseDataType.BYTE to DataType(BaseDataType.BYTE, null, null),
BaseDataType.UWORD to DataType(BaseDataType.UWORD, null, null),
BaseDataType.WORD to DataType(BaseDataType.WORD, null, null),
BaseDataType.LONG to DataType(BaseDataType.LONG, null, null),
BaseDataType.FLOAT to DataType(BaseDataType.FLOAT, null, null),
BaseDataType.BOOL to DataType(BaseDataType.BOOL, null, null),
BaseDataType.STR to DataType(BaseDataType.STR, BaseDataType.UBYTE, null),
BaseDataType.UNDEFINED to DataType(BaseDataType.UNDEFINED, null, null)
)
fun forDt(dt: BaseDataType): DataType {
if(dt.isStructInstance)
TODO("cannot use struct instance as a data type (yet) - use a pointer instead")
return simpletypes.getValue(dt)
}
fun arrayFor(elementDt: BaseDataType, splitwordarray: Boolean=true): DataType {
require(!elementDt.isPointer) { "use other array constructor for arrays of pointers" }
val actualElementDt = if(elementDt==BaseDataType.STR) BaseDataType.UWORD else elementDt // array of strings is actually just an array of UWORD pointers
return if(splitwordarray && actualElementDt.isWord)
DataType(BaseDataType.ARRAY_SPLITW, actualElementDt, null)
else {
if(actualElementDt.isNumericOrBool)
DataType(BaseDataType.ARRAY, actualElementDt, null)
else
throw NoSuchElementException("invalid basic element dt $elementDt")
}
}
fun arrayOfPointersTo(sub: BaseDataType): DataType = DataType(BaseDataType.ARRAY_POINTER, sub, null)
fun arrayOfPointersTo(structType: ISubType?): DataType = DataType(BaseDataType.ARRAY_POINTER, null, structType)
fun arrayOfPointersFromAntlrTo(sub: BaseDataType?, identifier: List<String>?): DataType =
DataType(BaseDataType.ARRAY_POINTER, sub, null, identifier)
fun pointer(base: BaseDataType): DataType = DataType(BaseDataType.POINTER, base, null)
fun pointer(dt: DataType): DataType = if(dt.isBasic)
DataType(BaseDataType.POINTER, dt.base, null)
else
DataType(BaseDataType.POINTER, null, dt.subType, dt.subTypeFromAntlr)
fun pointer(structType: ISubType): DataType = DataType(BaseDataType.POINTER, null, structType)
fun pointerFromAntlr(identifier: List<String>): DataType = DataType(BaseDataType.POINTER, null, null, identifier)
fun structInstance(type: ISubType?): DataType = DataType(BaseDataType.STRUCT_INSTANCE, sub=null, type)
fun structInstanceFromAntlr(struct: List<String>): DataType = DataType(BaseDataType.STRUCT_INSTANCE, null, null, subTypeFromAntlr = struct)
}
fun elementToArray(splitwords: Boolean = true): DataType {
return if (base == BaseDataType.UWORD || base == BaseDataType.WORD || base == BaseDataType.STR) arrayFor(base, splitwords)
else arrayFor(base, false)
}
fun elementType(): DataType =
when {
isPointerArray -> DataType(BaseDataType.POINTER, sub, subType)
base.isArray || base==BaseDataType.STR -> forDt(sub!!)
else -> throw IllegalArgumentException("not an array")
}
fun typeForAddressOf(msb: Boolean): DataType {
if (isUndefined)
return if(msb) pointer(BaseDataType.UBYTE) else UWORD
else {
if (isBasic)
return pointer(base)
if (isString)
return pointer(BaseDataType.UBYTE)
if (isPointer)
return UWORD
if (isArray) {
if (msb || isSplitWordArray)
return pointer(BaseDataType.UBYTE)
val elementDt = elementType()
require(elementDt.isBasic)
return pointer(elementDt)
}
if (subType != null)
return pointer(this)
return UWORD
}
}
fun dereference(): DataType {
require(isPointer || isUnsignedWord)
return when {
isUnsignedWord -> forDt(BaseDataType.UBYTE)
sub!=null -> forDt(sub)
subType!=null -> DataType(BaseDataType.STRUCT_INSTANCE, null, subType)
subTypeFromAntlr!=null -> DataType(BaseDataType.STRUCT_INSTANCE, null, null, subTypeFromAntlr)
else -> throw IllegalArgumentException("cannot dereference this pointer type")
}
}
override fun toString(): String = when(base) {
BaseDataType.ARRAY -> {
when(sub) {
BaseDataType.BOOL -> "bool[]"
BaseDataType.FLOAT -> "float[]"
BaseDataType.BYTE -> "byte[]"
BaseDataType.WORD -> "word[]"
BaseDataType.UBYTE -> "ubyte[]"
BaseDataType.UWORD -> "uword[]"
BaseDataType.LONG -> "long[]"
else -> throw IllegalArgumentException("invalid sub type")
}
}
BaseDataType.ARRAY_SPLITW -> {
when(sub) {
BaseDataType.WORD -> "word[] (split)"
BaseDataType.UWORD -> "uword[] (split)"
else -> throw IllegalArgumentException("invalid sub type")
}
}
BaseDataType.POINTER -> {
if(sub!=null) "^^${sub.name.lowercase()}" else if(subType!=null) "^^${subType!!.scopedNameString}" else "^^${subTypeFromAntlr}"
}
BaseDataType.ARRAY_POINTER -> {
if(sub!=null) "^^${sub.name.lowercase()}[] (split)" else if (subType!=null) "^^${subType!!.scopedNameString}[] (split)" else "^^${subTypeFromAntlr}[] (split)"
}
BaseDataType.STRUCT_INSTANCE -> {
sub?.name?.lowercase() ?: if (subType!=null) subType!!.scopedNameString else "$subTypeFromAntlr"
}
else -> base.name.lowercase()
}
fun sourceString(): String = when (base) {
BaseDataType.BOOL -> "bool"
BaseDataType.UBYTE -> "ubyte"
BaseDataType.BYTE -> "byte"
BaseDataType.UWORD -> "uword"
BaseDataType.WORD -> "word"
BaseDataType.LONG -> "long"
BaseDataType.FLOAT -> "float"
BaseDataType.STR -> "str"
BaseDataType.POINTER -> {
when {
sub!=null -> "^^${sub.name.lowercase()}"
subType!=null -> "^^${subType!!.scopedNameString}"
subTypeFromAntlr!=null -> "^^${subTypeFromAntlr!!.joinToString(".")}"
else -> "?????"
}
}
BaseDataType.STRUCT_INSTANCE -> {
when {
sub!=null -> sub.name.lowercase()
subType!=null -> subType!!.scopedNameString
subTypeFromAntlr!=null -> subTypeFromAntlr!!.joinToString(".")
else -> "?????"
}
}
BaseDataType.ARRAY_POINTER -> {
when {
sub!=null -> "^^${sub.name.lowercase()}["
subType!=null -> "^^${subType!!.scopedNameString}["
subTypeFromAntlr!=null -> "^^${subTypeFromAntlr!!.joinToString(".")}["
else -> "????? ["
}
}
BaseDataType.ARRAY -> {
when(sub) {
BaseDataType.UBYTE -> "ubyte["
BaseDataType.UWORD -> "@nosplit uword["
BaseDataType.BOOL -> "bool["
BaseDataType.BYTE -> "byte["
BaseDataType.WORD -> "@nosplit word["
BaseDataType.LONG -> "long["
BaseDataType.FLOAT -> "float["
else -> throw IllegalArgumentException("invalid sub type")
}
}
BaseDataType.ARRAY_SPLITW -> {
when(sub) {
BaseDataType.UWORD -> "uword["
BaseDataType.WORD -> "word["
else -> throw IllegalArgumentException("invalid sub type")
}
}
BaseDataType.UNDEFINED -> throw IllegalArgumentException("wrong dt")
}
// is the type assignable to the given other type (perhaps via a typecast) without loss of precision?
infix fun isAssignableTo(targetType: DataType) =
when(base) {
BaseDataType.BOOL -> targetType.base == BaseDataType.BOOL
BaseDataType.UBYTE -> targetType.base in arrayOf(BaseDataType.UBYTE, BaseDataType.WORD, BaseDataType.UWORD, BaseDataType.LONG, BaseDataType.FLOAT)
BaseDataType.BYTE -> targetType.base in arrayOf(BaseDataType.BYTE, BaseDataType.WORD, BaseDataType.LONG, BaseDataType.FLOAT)
BaseDataType.UWORD -> targetType.base in arrayOf(BaseDataType.UWORD, BaseDataType.LONG, BaseDataType.FLOAT, BaseDataType.POINTER, BaseDataType.ARRAY_POINTER)
BaseDataType.WORD -> targetType.base in arrayOf(BaseDataType.WORD, BaseDataType.LONG, BaseDataType.FLOAT)
BaseDataType.LONG -> targetType.base in arrayOf(BaseDataType.LONG, BaseDataType.FLOAT)
BaseDataType.FLOAT -> targetType.base in arrayOf(BaseDataType.FLOAT)
BaseDataType.STR -> targetType.base in arrayOf(BaseDataType.STR, BaseDataType.UWORD) || (targetType.isPointer && targetType.sub==BaseDataType.UBYTE)
BaseDataType.ARRAY, BaseDataType.ARRAY_SPLITW -> targetType.base in arrayOf(BaseDataType.ARRAY, BaseDataType.ARRAY_SPLITW) && targetType.sub == sub
BaseDataType.POINTER -> {
when {
targetType.base == BaseDataType.UWORD || targetType.base == BaseDataType.LONG -> true
targetType.isPointer -> this.isUnsignedWord || this == targetType
else -> false
}
}
BaseDataType.STRUCT_INSTANCE -> false // we cannot deal with actual struct instances yet in any shape or form (only getting fields from it)
BaseDataType.ARRAY_POINTER -> false
BaseDataType.UNDEFINED -> false
}
fun largerSizeThan(other: DataType): Boolean = base.largerSizeThan(other.base)
fun equalsSize(other: DataType): Boolean = base.equalsSize(other.base)
// note: for pointer types, size() doesn't return the size of the pointer itself but the size of the thing it points to
fun size(memsizer: IMemSizer): Int = if(sub!=null) {
memsizer.memorySize(sub)
} else if(subType!=null) {
subType!!.memsize(memsizer)
} else {
memsizer.memorySize(base)
}
val isBasic = sub==null && subType==null && subTypeFromAntlr==null
val isUndefined = base == BaseDataType.UNDEFINED
val isByte = base.isByte
val isUnsignedByte = base == BaseDataType.UBYTE
val isSignedByte = base == BaseDataType.BYTE
val isByteOrBool = base.isByteOrBool
val isWord = base.isWord
val isUnsignedWord = base == BaseDataType.UWORD
val isSignedWord = base == BaseDataType.WORD
val isInteger = base.isInteger
val isWordOrByteOrBool = base.isWordOrByteOrBool
val isIntegerOrBool = base.isIntegerOrBool
val isNumeric = base.isNumeric
val isNumericOrBool = base.isNumericOrBool
val isSigned = base.isSigned
val isUnsigned = !base.isSigned
val isArray = base.isArray
val isPointer = base.isPointer
val isPointerToByte = base.isPointer && sub?.isByteOrBool==true
val isPointerToWord = base.isPointer && sub?.isWord==true
val isStructInstance = base.isStructInstance
val isPointerArray = base.isPointerArray
val isBoolArray = base.isArray && !base.isPointerArray && sub == BaseDataType.BOOL
val isByteArray = base.isArray && !base.isPointerArray && (sub == BaseDataType.UBYTE || sub == BaseDataType.BYTE)
val isUnsignedByteArray = base.isArray && !base.isPointerArray && sub == BaseDataType.UBYTE
val isSignedByteArray = base.isArray && !base.isPointerArray && sub == BaseDataType.BYTE
val isWordArray = base.isArray && !base.isPointerArray && (sub == BaseDataType.UWORD || sub == BaseDataType.WORD)
val isUnsignedWordArray = base.isArray && !base.isPointerArray && sub == BaseDataType.UWORD
val isSignedWordArray = base.isArray && !base.isPointerArray && sub == BaseDataType.WORD
val isLongArray = base.isArray && sub == BaseDataType.LONG
val isFloatArray = base.isArray && !base.isPointerArray && sub == BaseDataType.FLOAT
val isString = base == BaseDataType.STR
val isBool = base == BaseDataType.BOOL
val isFloat = base == BaseDataType.FLOAT
val isLong = base == BaseDataType.LONG
val isStringly = base == BaseDataType.STR || base == BaseDataType.UWORD || (base == BaseDataType.ARRAY && (sub == BaseDataType.UBYTE || sub == BaseDataType.BYTE))
val isSplitWordArray = base.isSplitWordArray
val isSplitUnsignedWordArray = base.isSplitWordArray && !base.isPointerArray && sub == BaseDataType.UWORD
val isSplitSignedWordArray = base.isSplitWordArray && !base.isPointerArray && sub == BaseDataType.WORD
val isIterable = base.isIterable
val isPassByRef = base.isPassByRef
val isPassByValue = base.isPassByValue
}
enum class CpuRegister {
A,
X,
@@ -400,31 +70,10 @@ enum class RegisterOrPair {
FAC2,
// cx16 virtual registers:
R0, R1, R2, R3, R4, R5, R6, R7,
R8, R9, R10, R11, R12, R13, R14, R15,
// combined virtual registers to store 32 bits longs:
R0R1_32, R2R3_32, R4R5_32, R6R7_32, R8R9_32, R10R11_32, R12R13_32, R14R15_32;
R8, R9, R10, R11, R12, R13, R14, R15;
companion object {
val names by lazy { entries.map { it.toString()} }
fun fromCpuRegister(cpu: CpuRegister): RegisterOrPair {
return when(cpu) {
CpuRegister.A -> A
CpuRegister.X -> X
CpuRegister.Y -> Y
}
}
}
fun startregname() = when(this) {
R0R1_32 -> "r0"
R2R3_32 -> "r2"
R4R5_32 -> "r4"
R6R7_32 -> "r6"
R8R9_32 -> "r8"
R10R11_32 -> "r10"
R12R13_32 -> "r12"
R14R15_32 -> "r14"
else -> throw IllegalArgumentException("must be a combined virtual register $this")
val names by lazy { values().map { it.toString()} }
}
fun asCpuRegister(): CpuRegister = when(this) {
@@ -434,21 +83,6 @@ enum class RegisterOrPair {
else -> throw IllegalArgumentException("no cpu hardware register for $this")
}
fun asScopedNameVirtualReg(type: DataType?): List<String> {
require(this in Cx16VirtualRegisters)
val suffix = when(type?.base) {
BaseDataType.UBYTE, BaseDataType.BOOL -> "L"
BaseDataType.BYTE -> "sL"
BaseDataType.WORD -> "s"
BaseDataType.UWORD, BaseDataType.POINTER, null -> ""
else -> throw IllegalArgumentException("invalid register param type for cx16 virtual reg")
}
return listOf("cx16", name.lowercase()+suffix)
}
fun isWord() = this==AX || this == AY || this==XY || this in Cx16VirtualRegisters
fun isLong() = this in combinedLongRegisters
} // only used in parameter and return value specs in asm subroutines
enum class Statusflag {
@@ -458,7 +92,7 @@ enum class Statusflag {
Pn; // don't use
companion object {
val names by lazy { entries.map { it.toString()} }
val names by lazy { values().map { it.toString()} }
}
}
@@ -474,9 +108,44 @@ enum class BranchCondition {
PL, // PL == POS
POS,
VS,
VC
VC,
}
val ByteDatatypes = arrayOf(DataType.UBYTE, DataType.BYTE, DataType.BOOL)
val WordDatatypes = arrayOf(DataType.UWORD, DataType.WORD)
val IntegerDatatypes = arrayOf(DataType.UBYTE, DataType.BYTE, DataType.UWORD, DataType.WORD, DataType.BOOL)
val IntegerDatatypesNoBool = arrayOf(DataType.UBYTE, DataType.BYTE, DataType.UWORD, DataType.WORD)
val NumericDatatypes = arrayOf(DataType.UBYTE, DataType.BYTE, DataType.UWORD, DataType.WORD, DataType.FLOAT, DataType.BOOL)
val NumericDatatypesNoBool = arrayOf(DataType.UBYTE, DataType.BYTE, DataType.UWORD, DataType.WORD, DataType.FLOAT)
val SignedDatatypes = arrayOf(DataType.BYTE, DataType.WORD, DataType.FLOAT)
val ArrayDatatypes = arrayOf(DataType.ARRAY_UB, DataType.ARRAY_B, DataType.ARRAY_UW, DataType.ARRAY_W, DataType.ARRAY_F, DataType.ARRAY_BOOL)
val StringlyDatatypes = arrayOf(DataType.STR, DataType.ARRAY_UB, DataType.ARRAY_B, DataType.UWORD)
val IterableDatatypes = arrayOf(
DataType.STR,
DataType.ARRAY_UB, DataType.ARRAY_B,
DataType.ARRAY_UW, DataType.ARRAY_W,
DataType.ARRAY_F, DataType.ARRAY_BOOL
)
val PassByValueDatatypes = NumericDatatypes
val PassByReferenceDatatypes = IterableDatatypes
val ArrayToElementTypes = mapOf(
DataType.STR to DataType.UBYTE,
DataType.ARRAY_B to DataType.BYTE,
DataType.ARRAY_UB to DataType.UBYTE,
DataType.ARRAY_W to DataType.WORD,
DataType.ARRAY_UW to DataType.UWORD,
DataType.ARRAY_F to DataType.FLOAT,
DataType.ARRAY_BOOL to DataType.BOOL
)
val ElementToArrayTypes = mapOf(
DataType.BYTE to DataType.ARRAY_B,
DataType.UBYTE to DataType.ARRAY_UB,
DataType.WORD to DataType.ARRAY_W,
DataType.UWORD to DataType.ARRAY_UW,
DataType.FLOAT to DataType.ARRAY_F,
DataType.BOOL to DataType.ARRAY_BOOL
)
val Cx16VirtualRegisters = arrayOf(
RegisterOrPair.R0, RegisterOrPair.R1, RegisterOrPair.R2, RegisterOrPair.R3,
RegisterOrPair.R4, RegisterOrPair.R5, RegisterOrPair.R6, RegisterOrPair.R7,
@@ -484,28 +153,12 @@ val Cx16VirtualRegisters = arrayOf(
RegisterOrPair.R12, RegisterOrPair.R13, RegisterOrPair.R14, RegisterOrPair.R15
)
val combinedLongRegisters = arrayOf(
RegisterOrPair.R0R1_32,
RegisterOrPair.R2R3_32,
RegisterOrPair.R4R5_32,
RegisterOrPair.R6R7_32,
RegisterOrPair.R8R9_32,
RegisterOrPair.R10R11_32,
RegisterOrPair.R12R13_32,
RegisterOrPair.R14R15_32
)
val CpuRegisters = arrayOf(
RegisterOrPair.A, RegisterOrPair.X, RegisterOrPair.Y,
RegisterOrPair.AX, RegisterOrPair.AY, RegisterOrPair.XY
)
enum class OutputType {
RAW,
PRG,
XEX,
LIBRARY
XEX
}
enum class CbmPrgLauncherType {
@@ -527,8 +180,3 @@ enum class ZeropageWish {
DONTCARE,
NOT_IN_ZEROPAGE
}
enum class SplitWish {
DONTCARE,
NOSPLIT
}

8
simpleAst/src/prog8/code/ICodeGeneratorBackend.kt → codeCore/src/prog8/code/core/ICodeGeneratorBackend.kt
View File

@@ -1,15 +1,13 @@
package prog8.code
package prog8.code.core
import prog8.code.SymbolTable
import prog8.code.ast.PtProgram
import prog8.code.core.CompilationOptions
import prog8.code.core.IErrorReporter
interface ICodeGeneratorBackend {
fun generate(program: PtProgram,
symbolTable: SymbolTable,
options: CompilationOptions,
errors: IErrorReporter
): IAssemblyProgram?
errors: IErrorReporter): IAssemblyProgram?
}

39
codeCore/src/prog8/code/core/ICompilationTarget.kt
View File

@@ -1,43 +1,10 @@
package prog8.code.core
import java.nio.file.Path
enum class CpuType {
CPU6502,
CPU65C02,
VIRTUAL
}
interface ICompilationTarget: IStringEncoding, IMemSizer {
val name: String
val FLOAT_MAX_NEGATIVE: Double
val FLOAT_MAX_POSITIVE: Double
val FLOAT_MEM_SIZE: Int
val STARTUP_CODE_RESERVED_SIZE: UInt // this is here, so that certain compiler targets are able to tune this
val PROGRAM_LOAD_ADDRESS : UInt
val PROGRAM_MEMTOP_ADDRESS: UInt
val BSSHIGHRAM_START: UInt
val BSSHIGHRAM_END: UInt
val BSSGOLDENRAM_START: UInt
val BSSGOLDENRAM_END: UInt
val cpu: CpuType
var zeropage: Zeropage
var golden: GoldenRam
val libraryPath: Path?
val customLauncher: List<String>
val additionalAssemblerOptions: List<String>
val defaultOutputType: OutputType
fun initializeMemoryAreas(compilerOptions: CompilationOptions)
fun getFloatAsmBytes(num: Number): String
fun convertFloatToBytes(num: Double): List<UByte>
fun convertBytesToFloat(bytes: List<UByte>): Double
fun launchEmulator(selectedEmulator: Int, programNameWithPath: Path, quiet: Boolean)
fun isIOAddress(address: UInt): Boolean
val machine: IMachineDefinition
val supportedEncodings: Set<Encoding>
val defaultEncoding: Encoding
override fun encodeString(str: String, encoding: Encoding): List<UByte>
override fun decodeString(bytes: Iterable<UByte>, encoding: Encoding): String

10
codeCore/src/prog8/code/core/IErrorReporter.kt
View File

@@ -3,16 +3,10 @@ package prog8.code.core
interface IErrorReporter {
fun err(msg: String, position: Position)
fun warn(msg: String, position: Position)
fun info(msg: String, position: Position)
fun undefined(symbol: List<String>, position: Position)
fun noErrors(): Boolean
fun report()
fun finalizeNumErrors(numErrors: Int, numWarnings: Int, numInfos: Int) {
fun finalizeNumErrors(numErrors: Int, numWarnings: Int) {
if(numErrors>0)
throw ErrorsReportedException("There are $numErrors errors, $numWarnings warnings, and $numInfos infos.")
throw ErrorsReportedException("There are $numErrors errors and $numWarnings warnings.")
}
fun noErrorForLine(position: Position): Boolean
fun printSingleError(errormessage: String)
}

39
codeCore/src/prog8/code/core/IMachineDefinition.kt Normal file
View File

@@ -0,0 +1,39 @@
package prog8.code.core
import java.nio.file.Path
enum class CpuType {
CPU6502,
CPU65c02,
VIRTUAL
}
interface IMachineDefinition {
val FLOAT_MAX_NEGATIVE: Double
val FLOAT_MAX_POSITIVE: Double
val FLOAT_MEM_SIZE: Int
var ESTACK_LO: UInt
var ESTACK_HI: UInt
val PROGRAM_LOAD_ADDRESS : UInt
val BSSHIGHRAM_START: UInt
val BSSHIGHRAM_END: UInt
val cpu: CpuType
var zeropage: Zeropage
var golden: GoldenRam
fun initializeMemoryAreas(compilerOptions: CompilationOptions)
fun getFloatAsmBytes(num: Number): String
fun importLibs(compilerOptions: CompilationOptions, compilationTargetName: String): List<String>
fun launchEmulator(selectedEmulator: Int, programNameWithPath: Path)
fun isIOAddress(address: UInt): Boolean
fun overrideEvalStack(evalStackBaseAddress: UInt) {
require(evalStackBaseAddress and 255u == 0u)
ESTACK_LO = evalStackBaseAddress
ESTACK_HI = evalStackBaseAddress + 256u
require(ESTACK_LO !in golden.region && ESTACK_HI !in golden.region) { "user-set ESTACK can't be in GOLDEN ram" }
}
}

13
codeCore/src/prog8/code/core/IMemSizer.kt
View File

@@ -1,15 +1,6 @@
package prog8.code.core
interface IMemSizer {
fun memorySize(dt: DataType, numElements: Int?): Int
fun memorySize(dt: BaseDataType): Int {
if(dt.isPassByRef)
return memorySize(DataType.UWORD, null) // a pointer size
try {
return memorySize(DataType.forDt(dt), null)
} catch (x: NoSuchElementException) {
throw IllegalArgumentException(x.message)
}
}
fun memorySize(dt: DataType): Int
fun memorySize(arrayDt: DataType, numElements: Int): Int
}

9
codeCore/src/prog8/code/core/IStringEncoding.kt
View File

@@ -5,17 +5,10 @@ enum class Encoding(val prefix: String) {
PETSCII("petscii"), // c64/c128/cx16
SCREENCODES("sc"), // c64/c128/cx16
ATASCII("atascii"), // atari
ISO("iso"), // cx16 (iso-8859-15)
ISO5("iso5"), // cx16 (iso-8859-5, cyrillic)
ISO16("iso16"), // cx16 (iso-8859-16, eastern european)
CP437("cp437"), // cx16 (ibm pc, codepage 437)
KATAKANA("kata"), // cx16 (katakana)
C64OS("c64os") // c64 (C64 OS)
ISO("iso") // cx16
}
interface IStringEncoding {
val defaultEncoding: Encoding
fun encodeString(str: String, encoding: Encoding): List<UByte>
fun decodeString(bytes: Iterable<UByte>, encoding: Encoding): String
}

53
codeCore/src/prog8/code/core/MemoryRegions.kt
View File

@@ -22,10 +22,9 @@ abstract class MemoryAllocator(protected val options: CompilationOptions) {
abstract class Zeropage(options: CompilationOptions): MemoryAllocator(options) {
abstract val SCRATCH_B1 : UInt // temp storage for a single byte
abstract val SCRATCH_REG : UInt // temp storage for a register byte, must be B1+1
abstract val SCRATCH_W1 : UInt // temp storage 1 for a word
abstract val SCRATCH_W2 : UInt // temp storage 2 for a word
abstract val SCRATCH_PTR : UInt // temp storage for a pointer
abstract val SCRATCH_REG : UInt // temp storage for a register, must be B1+1
abstract val SCRATCH_W1 : UInt // temp storage 1 for a word $fb+$fc
abstract val SCRATCH_W2 : UInt // temp storage 2 for a word $fb+$fc
// the variables allocated into Zeropage.
@@ -39,14 +38,7 @@ abstract class Zeropage(options: CompilationOptions): MemoryAllocator(options) {
for (reserved in options.zpReserved)
reserve(reserved)
free.removeAll(arrayOf(SCRATCH_B1, SCRATCH_REG, SCRATCH_W1, SCRATCH_W1 + 1u, SCRATCH_W2, SCRATCH_W2 + 1u, SCRATCH_PTR, SCRATCH_PTR+1u))
}
}
fun retainAllowed() {
synchronized(this) {
for(allowed in options.zpAllowed)
free.retainAll { it in allowed }
free.removeAll(setOf(SCRATCH_B1, SCRATCH_REG, SCRATCH_W1, SCRATCH_W1 + 1u, SCRATCH_W2, SCRATCH_W2 + 1u))
}
}
@@ -71,10 +63,9 @@ abstract class Zeropage(options: CompilationOptions): MemoryAllocator(options) {
return Err(MemAllocationError("zero page usage has been disabled"))
val size: Int =
when {
datatype.isIntegerOrBool -> options.compTarget.memorySize(datatype, null)
datatype.isPointer -> options.compTarget.memorySize(datatype, null)
datatype.isString || datatype.isArray -> {
when (datatype) {
in IntegerDatatypes -> options.compTarget.memorySize(datatype)
DataType.STR, in ArrayDatatypes -> {
val memsize = options.compTarget.memorySize(datatype, numElements!!)
if(position!=null)
errors.warn("allocating a large value in zeropage; str/array $memsize bytes", position)
@@ -82,9 +73,9 @@ abstract class Zeropage(options: CompilationOptions): MemoryAllocator(options) {
errors.warn("$name: allocating a large value in zeropage; str/array $memsize bytes", Position.DUMMY)
memsize
}
datatype.isFloat -> {
DataType.FLOAT -> {
if (options.floats) {
val memsize = options.compTarget.memorySize(DataType.FLOAT, null)
val memsize = options.compTarget.memorySize(DataType.FLOAT)
if(position!=null)
errors.warn("allocating a large value in zeropage; float $memsize bytes", position)
else
@@ -96,7 +87,7 @@ abstract class Zeropage(options: CompilationOptions): MemoryAllocator(options) {
}
synchronized(this) {
if(free.isNotEmpty()) {
if(free.size > 0) {
if(size==1) {
for(candidate in free.minOrNull()!! .. free.maxOrNull()!!+1u) {
if(oneSeparateByteFree(candidate))
@@ -120,11 +111,10 @@ abstract class Zeropage(options: CompilationOptions): MemoryAllocator(options) {
require(size>=0)
free.removeAll(address until address+size.toUInt())
if(name.isNotEmpty()) {
allocatedVariables[name] = when {
datatype.isNumericOrBool -> VarAllocation(address, datatype, size) // numerical variables in zeropage never have an initial value here because they are set in separate initializer assignments
datatype.isString -> VarAllocation(address, datatype, size)
datatype.isArray -> VarAllocation(address, datatype, size)
datatype.isPointer -> VarAllocation(address, datatype, size)
allocatedVariables[name] = when(datatype) {
in NumericDatatypes -> VarAllocation(address, datatype, size) // numerical variables in zeropage never have an initial value here because they are set in separate initializer assignments
DataType.STR -> VarAllocation(address, datatype, size)
in ArrayDatatypes -> VarAllocation(address, datatype, size)
else -> throw AssemblyError("invalid dt")
}
}
@@ -136,6 +126,8 @@ abstract class Zeropage(options: CompilationOptions): MemoryAllocator(options) {
require(size>0)
return free.containsAll((address until address+size.toUInt()).toList())
}
abstract fun allocateCx16VirtualRegisters()
}
@@ -151,13 +143,14 @@ class GoldenRam(options: CompilationOptions, val region: UIntRange): MemoryAlloc
errors: IErrorReporter): Result<VarAllocation, MemAllocationError> {
val size: Int =
when {
datatype.isIntegerOrBool -> options.compTarget.memorySize(datatype, null)
datatype.isString -> numElements!!
datatype.isArray -> options.compTarget.memorySize(datatype, numElements!!)
datatype.isFloat -> {
when (datatype) {
in IntegerDatatypes -> options.compTarget.memorySize(datatype)
DataType.STR, in ArrayDatatypes -> {
options.compTarget.memorySize(datatype, numElements!!)
}
DataType.FLOAT -> {
if (options.floats) {
options.compTarget.memorySize(DataType.FLOAT, null)
options.compTarget.memorySize(DataType.FLOAT)
} else return Err(MemAllocationError("floating point option not enabled"))
}
else -> throw MemAllocationError("weird dt")

12
codeCore/src/prog8/code/core/Operators.kt
View File

@@ -1,10 +1,12 @@
package prog8.code.core
val AssociativeOperators = arrayOf("+", "*", "&", "|", "^", "==", "!=", "xor") // note: and,or are not associative because of Shortcircuit/McCarthy evaluation
val ComparisonOperators = arrayOf("==", "!=", "<", ">", "<=", ">=")
val LogicalOperators = arrayOf("and", "or", "xor", "not", "in")
val BitwiseOperators = arrayOf("&", "|", "^", "~")
val PrefixOperators = arrayOf("+", "-", "~", "not")
val AssociativeOperators = setOf("+", "*", "&", "|", "^", "==", "!=")
val ComparisonOperators = setOf("==", "!=", "<", ">", "<=", ">=")
val LogicalOperators = setOf("and", "or", "xor", "not")
val AugmentAssignmentOperators = setOf("+", "-", "/", "*", "&", "|", "^", "<<", ">>", "%", "and", "or", "xor")
val BitwiseOperators = setOf("&", "|", "^", "~")
val PrefixOperators = setOf("+", "-", "~", "not")
// val InvalidOperatorsForBoolean = setOf("+", "-", "*", "/", "%", "<<", ">>") + BitwiseOperators
fun invertedComparisonOperator(operator: String) =
when (operator) {

10
codeCore/src/prog8/code/core/Position.kt
View File

@@ -1,21 +1,21 @@
package prog8.code.core
import prog8.code.sanitize
import prog8.code.source.SourceCode
import prog8.code.core.SourceCode.Companion.libraryFilePrefix
import java.nio.file.InvalidPathException
import kotlin.io.path.Path
import kotlin.io.path.absolute
data class Position(val file: String, val line: Int, val startCol: Int, val endCol: Int) {
override fun toString(): String = "[$file: line $line col ${startCol+1}-${endCol+1}]"
fun toClickableStr(): String {
if(this===DUMMY)
return ""
if(SourceCode.isLibraryResource(file))
if(file.startsWith(libraryFilePrefix))
return "$file:$line:$startCol:"
return try {
val path = Path(file).sanitize().toString()
val path = Path(file).absolute().normalize().toString()
"file://$path:$line:$startCol:"
} catch(_: InvalidPathException) {
} catch(x: InvalidPathException) {
// this can occur on Windows when the source origin contains "invalid" characters such as ':'
"file://$file:$line:$startCol:"
}

62
codeCore/src/prog8/code/source/SourceCode.kt → codeCore/src/prog8/code/core/SourceCode.kt
View File

@@ -1,13 +1,15 @@
package prog8.code.source
package prog8.code.core
import prog8.code.sanitize
import java.io.File
import java.io.IOException
import java.nio.file.Path
import java.text.Normalizer
import kotlin.io.path.Path
import kotlin.io.path.absolute
import kotlin.io.path.readText
const val internedStringsModuleName = "prog8_interned_strings"
/**
* Encapsulates - and ties together - actual source code (=text) and its [origin].
*/
@@ -23,11 +25,6 @@ sealed class SourceCode {
*/
abstract val isFromFilesystem: Boolean
/**
* Whether this [SourceCode] instance was created from a library module file
*/
abstract val isFromLibrary: Boolean
/**
* The logical name of the source code unit. Usually the module's name.
*/
@@ -57,46 +54,34 @@ sealed class SourceCode {
/**
* filename prefix to designate library files that will be retreived from internal resources rather than disk
*/
private const val LIBRARYFILEPREFIX = "library:"
private const val STRINGSOURCEPREFIX = "string:"
val curdir: Path = Path(".").absolute()
fun relative(path: Path): Path = curdir.relativize(path.sanitize())
fun isRegularFilesystemPath(pathString: String) = !isLibraryResource(pathString) && !isStringResource(pathString)
fun isLibraryResource(path: String) = path.startsWith(LIBRARYFILEPREFIX)
fun isStringResource(path: String) = path.startsWith(STRINGSOURCEPREFIX)
fun withoutPrefix(path: String): String {
return if(isLibraryResource(path))
path.removePrefix(LIBRARYFILEPREFIX)
else if(isStringResource(path))
path.removePrefix(STRINGSOURCEPREFIX)
else
path
}
const val libraryFilePrefix = "library:"
const val stringSourcePrefix = "string:"
val curdir: Path = Path(".").toAbsolutePath()
fun relative(path: Path): Path = curdir.relativize(path.toAbsolutePath())
fun isRegularFilesystemPath(pathString: String) =
!(pathString.startsWith(libraryFilePrefix) || pathString.startsWith(stringSourcePrefix))
}
/**
* Turn a plain String into a [SourceCode] object.
* [origin] will be something like `string:44c56085`.
*/
class Text(origText: String): SourceCode() {
override val text = origText.replace("\\R".toRegex(), "\n") // normalize line endings
class Text(override val text: String): SourceCode() {
override val isFromResources = false
override val isFromFilesystem = false
override val isFromLibrary = false
override val origin = "$STRINGSOURCEPREFIX${System.identityHashCode(text).toString(16)}"
override val origin = "$stringSourcePrefix${System.identityHashCode(text).toString(16)}"
override val name = "<unnamed-text>"
}
/**
* Get [SourceCode] from the file represented by the specified Path.
* This immediately reads the file fully into memory.
* You can only get an instance of this via the ImportFileSystem object.
*
* [origin] will be the given path in absolute and normalized form.
* @throws NoSuchFileException if the file does not exist
* @throws FileSystemException if the file cannot be read
*/
internal class File(path: Path, override val isFromLibrary: Boolean): SourceCode() {
class File(path: Path): SourceCode() {
override val text: String
override val origin: String
override val name: String
@@ -107,8 +92,7 @@ sealed class SourceCode {
val normalized = path.normalize()
origin = relative(normalized).toString()
try {
val contents = Normalizer.normalize(normalized.readText(), Normalizer.Form.NFC)
text = contents.replace("\\R".toRegex(), "\n") // normalize line endings
text = normalized.readText()
name = normalized.toFile().nameWithoutExtension
} catch (nfx: java.nio.file.NoSuchFileException) {
throw NoSuchFileException(normalized.toFile()).also { it.initCause(nfx) }
@@ -120,15 +104,13 @@ sealed class SourceCode {
/**
* [origin]: `library:/x/y/z.p8` for a given `pathString` of "x/y/z.p8"
* You can only get an instance of this via the ImportFileSystem object.
*/
internal class Resource(pathString: String): SourceCode() {
class Resource(pathString: String): SourceCode() {
private val normalized = "/" + Path(pathString).normalize().toMutableList().joinToString("/")
override val isFromResources = true
override val isFromFilesystem = false
override val isFromLibrary = true
override val origin = "$LIBRARYFILEPREFIX$normalized"
override val origin = "$libraryFilePrefix$normalized"
override val text: String
override val name: String
@@ -137,13 +119,12 @@ sealed class SourceCode {
if (rscURL == null) {
val rscRoot = object {}.javaClass.getResource("/")
throw NoSuchFileException(
java.io.File(normalized),
File(normalized),
reason = "looked in resources rooted at $rscRoot"
)
}
val stream = object {}.javaClass.getResourceAsStream(normalized)
val contents = stream!!.reader().use { Normalizer.normalize(it.readText(), Normalizer.Form.NFC) }
text = contents.replace("\\R".toRegex(), "\n") // normalize line endings
text = stream!!.reader().use { it.readText() }
name = Path(pathString).toFile().nameWithoutExtension
}
}
@@ -154,8 +135,7 @@ sealed class SourceCode {
class Generated(override val name: String) : SourceCode() {
override val isFromResources: Boolean = false
override val isFromFilesystem: Boolean = false
override val isFromLibrary: Boolean = false
override val origin: String = name
override val text: String = "<generated code node, no text representation>"
}
}
}

74
codeCore/src/prog8/code/source/ImportFileSystem.kt
View File

@@ -1,74 +0,0 @@
package prog8.code.source
import prog8.code.core.Position
import prog8.code.sanitize
import java.nio.file.Path
import java.util.*
import kotlin.io.path.Path
// Resource caching "filesystem".
// Note that it leaves the decision to load a resource or an actual disk file to the caller.
object ImportFileSystem {
fun expandTilde(path: String): String = if (path.startsWith("~")) {
val userHome = System.getProperty("user.home")
userHome + path.drop(1)
} else {
path
}
fun expandTilde(path: Path): Path = Path(expandTilde(path.toString()))
fun getFile(path: Path, isLibrary: Boolean=false): SourceCode {
val normalized = path.sanitize()
val cached = cache[normalized.toString()]
if (cached != null)
return cached
val file = SourceCode.File(normalized, isLibrary)
cache[normalized.toString()] = file
return file
}
fun getResource(name: String): SourceCode {
val cached = cache[name]
if (cached != null) return cached
val resource = SourceCode.Resource(name)
cache[name] = resource
return resource
}
fun retrieveSourceLine(position: Position): String {
if(SourceCode.isLibraryResource(position.file)) {
val cached = cache[SourceCode.withoutPrefix(position.file)]
if(cached != null)
return getLine(cached, position.line)
}
val cached = cache[position.file]
if(cached != null)
return getLine(cached, position.line)
val path = Path(position.file).sanitize()
val cached2 = cache[path.toString()]
if(cached2 != null)
return getLine(cached2, position.line)
throw NoSuchElementException("cannot get source line $position, with path $path")
}
private fun getLine(code: SourceCode, lineIndex: Int): String {
var spans = lineSpanCache[code]
if(spans==null) {
val lineSpans = Regex("^", RegexOption.MULTILINE).findAll(code.text).map { it.range.first }
val ends = lineSpans.drop(1) + code.text.length
spans = lineSpans.zip(ends).map { (start, end) -> LineSpan(start, end) }.toList().toTypedArray()
lineSpanCache[code] = spans
}
val span = spans[lineIndex - 1]
return code.text.substring(span.start, span.end).trim()
}
private class LineSpan(val start: Int, val end: Int)
private val cache = TreeMap<String, SourceCode>(String.CASE_INSENSITIVE_ORDER)
private val lineSpanCache = mutableMapOf<SourceCode, Array<LineSpan>>()
}

28
codeCore/src/prog8/code/target/AtariTarget.kt Normal file
View File

@@ -0,0 +1,28 @@
package prog8.code.target
import prog8.code.core.*
import prog8.code.target.atari.AtariMachineDefinition
class AtariTarget: ICompilationTarget, IStringEncoding by Encoder, IMemSizer {
override val name = NAME
override val machine = AtariMachineDefinition()
override val supportedEncodings = setOf(Encoding.ATASCII)
override val defaultEncoding = Encoding.ATASCII
companion object {
const val NAME = "atari"
}
override fun memorySize(dt: DataType): Int {
return when(dt) {
in ByteDatatypes -> 1
in WordDatatypes, in PassByReferenceDatatypes -> 2
DataType.FLOAT -> machine.FLOAT_MEM_SIZE
else -> Int.MIN_VALUE
}
}
override fun memorySize(arrayDt: DataType, numElements: Int) =
memorySize(ArrayToElementTypes.getValue(arrayDt)) * numElements
}

79
codeCore/src/prog8/code/target/C128Target.kt
View File

@@ -1,81 +1,20 @@
package prog8.code.target
import prog8.code.core.*
import prog8.code.target.encodings.Encoder
import prog8.code.target.zp.C128Zeropage
import java.nio.file.Path
import prog8.code.core.Encoding
import prog8.code.core.ICompilationTarget
import prog8.code.core.IMemSizer
import prog8.code.core.IStringEncoding
import prog8.code.target.c128.C128MachineDefinition
import prog8.code.target.cbm.CbmMemorySizer
class C128Target: ICompilationTarget,
IStringEncoding by Encoder(true),
IMemSizer by NormalMemSizer(Mflpt5.FLOAT_MEM_SIZE) {
class C128Target: ICompilationTarget, IStringEncoding by Encoder, IMemSizer by CbmMemorySizer {
override val name = NAME
override val machine = C128MachineDefinition()
override val supportedEncodings = setOf(Encoding.PETSCII, Encoding.SCREENCODES)
override val defaultEncoding = Encoding.PETSCII
override val libraryPath = null
override val customLauncher = emptyList<String>()
override val additionalAssemblerOptions = emptyList<String>()
override val defaultOutputType = OutputType.PRG
companion object {
const val NAME = "c128"
}
override val cpu = CpuType.CPU6502
override val FLOAT_MAX_POSITIVE = Mflpt5.FLOAT_MAX_POSITIVE
override val FLOAT_MAX_NEGATIVE = Mflpt5.FLOAT_MAX_NEGATIVE
override val FLOAT_MEM_SIZE = Mflpt5.FLOAT_MEM_SIZE
override val STARTUP_CODE_RESERVED_SIZE = 20u
override val PROGRAM_LOAD_ADDRESS = 0x1c01u
override val PROGRAM_MEMTOP_ADDRESS = 0xc000u
override val BSSHIGHRAM_START = 0u // TODO address?
override val BSSHIGHRAM_END = 0u // TODO address?
override val BSSGOLDENRAM_START = 0u // TODO address?
override val BSSGOLDENRAM_END = 0u // TODO address?
override lateinit var zeropage: Zeropage
override lateinit var golden: GoldenRam
override fun getFloatAsmBytes(num: Number) = Mflpt5.fromNumber(num).makeFloatFillAsm()
override fun convertFloatToBytes(num: Double): List<UByte> {
val m5 = Mflpt5.fromNumber(num)
return listOf(m5.b0, m5.b1, m5.b2, m5.b3, m5.b4)
}
override fun convertBytesToFloat(bytes: List<UByte>): Double {
require(bytes.size==5) { "need 5 bytes" }
val m5 = Mflpt5(bytes[0], bytes[1], bytes[2], bytes[3], bytes[4])
return m5.toDouble()
}
override fun launchEmulator(selectedEmulator: Int, programNameWithPath: Path, quiet: Boolean) {
if(selectedEmulator!=1) {
System.err.println("The c128 target only supports the main emulator (Vice).")
return
}
if(!quiet)
println("\nStarting C-128 emulator x128...")
val viceMonlist = C64Target.viceMonListName(programNameWithPath.toString())
val cmdline = listOf("x128", "-silent", "-moncommands", viceMonlist,
"-autostartprgmode", "1", "-autostart-warp", "-autostart", "${programNameWithPath}.prg")
val processb = ProcessBuilder(cmdline)
if(!quiet)
processb.inheritIO()
val process: Process = processb.start()
process.waitFor()
}
override fun isIOAddress(address: UInt): Boolean = address==0u || address==1u || address in 0xd000u..0xdfffu
override fun initializeMemoryAreas(compilerOptions: CompilationOptions) {
zeropage = C128Zeropage(compilerOptions)
golden = GoldenRam(compilerOptions, UIntRange.EMPTY) // TODO does the c128 have some of this somewhere?
}
}

107
codeCore/src/prog8/code/target/C64Target.kt
View File

@@ -1,111 +1,22 @@
package prog8.code.target
import prog8.code.core.*
import prog8.code.target.encodings.Encoder
import prog8.code.target.zp.C64Zeropage
import java.io.IOException
import java.nio.file.Path
import prog8.code.core.Encoding
import prog8.code.core.ICompilationTarget
import prog8.code.core.IMemSizer
import prog8.code.core.IStringEncoding
import prog8.code.target.c64.C64MachineDefinition
import prog8.code.target.cbm.CbmMemorySizer
class C64Target: ICompilationTarget,
IStringEncoding by Encoder(true),
IMemSizer by NormalMemSizer(Mflpt5.FLOAT_MEM_SIZE) {
class C64Target: ICompilationTarget, IStringEncoding by Encoder, IMemSizer by CbmMemorySizer {
override val name = NAME
override val machine = C64MachineDefinition()
override val supportedEncodings = setOf(Encoding.PETSCII, Encoding.SCREENCODES)
override val defaultEncoding = Encoding.PETSCII
override val libraryPath = null
override val customLauncher = emptyList<String>()
override val additionalAssemblerOptions = emptyList<String>()
override val defaultOutputType = OutputType.PRG
companion object {
const val NAME = "c64"
fun viceMonListName(baseFilename: String) = "$baseFilename.vice-mon-list"
}
override val cpu = CpuType.CPU6502
override val FLOAT_MAX_POSITIVE = Mflpt5.FLOAT_MAX_POSITIVE
override val FLOAT_MAX_NEGATIVE = Mflpt5.FLOAT_MAX_NEGATIVE
override val FLOAT_MEM_SIZE = Mflpt5.FLOAT_MEM_SIZE
override val STARTUP_CODE_RESERVED_SIZE = 20u
override val PROGRAM_LOAD_ADDRESS = 0x0801u
override val PROGRAM_MEMTOP_ADDRESS = 0xcfe0u // $a000 if floats are used
// note that at $cfe0-$cfff are the 16 'virtual registers' R0-R15
override val BSSHIGHRAM_START = 0xc000u
override val BSSHIGHRAM_END = 0xcfdfu
override val BSSGOLDENRAM_START = 0u // no golden ram on C64
override val BSSGOLDENRAM_END = 0u
override lateinit var zeropage: Zeropage
override lateinit var golden: GoldenRam
override fun getFloatAsmBytes(num: Number) = Mflpt5.fromNumber(num).makeFloatFillAsm()
override fun convertFloatToBytes(num: Double): List<UByte> {
val m5 = Mflpt5.fromNumber(num)
return listOf(m5.b0, m5.b1, m5.b2, m5.b3, m5.b4)
}
override fun convertBytesToFloat(bytes: List<UByte>): Double {
require(bytes.size==5) { "need 5 bytes" }
val m5 = Mflpt5(bytes[0], bytes[1], bytes[2], bytes[3], bytes[4])
return m5.toDouble()
}
override fun launchEmulator(selectedEmulator: Int, programNameWithPath: Path, quiet: Boolean) {
if(selectedEmulator!=1) {
System.err.println("The c64 target only supports the main emulator (Vice).")
return
}
for(emulator in listOf("x64sc", "x64")) {
if(!quiet)
println("\nStarting C-64 emulator $emulator...")
val viceMonlist = viceMonListName(programNameWithPath.toString())
val cmdline = listOf(emulator, "-silent", "-moncommands", viceMonlist,
"-autostartprgmode", "1", "-autostart-warp", "-autostart", "${programNameWithPath}.prg")
val processb = ProcessBuilder(cmdline)
if(!quiet)
processb.inheritIO()
val process: Process
try {
process=processb.start()
} catch(_: IOException) {
continue // try the next emulator executable
}
process.waitFor()
break
}
}
override fun isIOAddress(address: UInt): Boolean = address==0u || address==1u || address in 0xd000u..0xdfffu
override fun initializeMemoryAreas(compilerOptions: CompilationOptions) {
zeropage = C64Zeropage(compilerOptions)
golden = GoldenRam(compilerOptions, UIntRange.EMPTY)
}
}
val CompilationTargets = listOf(
C64Target.NAME,
C128Target.NAME,
Cx16Target.NAME,
PETTarget.NAME,
VMTarget.NAME
)
fun getCompilationTargetByName(name: String) = when(name.lowercase()) {
C64Target.NAME -> C64Target()
C128Target.NAME -> C128Target()
Cx16Target.NAME -> Cx16Target()
PETTarget.NAME -> PETTarget()
VMTarget.NAME -> VMTarget()
else -> throw IllegalArgumentException("invalid compilation target")
}

173
codeCore/src/prog8/code/target/ConfigFileTarget.kt
View File

@@ -1,173 +0,0 @@
package prog8.code.target
import prog8.code.core.*
import prog8.code.source.ImportFileSystem.expandTilde
import prog8.code.target.encodings.Encoder
import prog8.code.target.zp.ConfigurableZeropage
import java.io.IOException
import java.nio.file.Path
import java.util.*
import kotlin.io.path.Path
import kotlin.io.path.inputStream
import kotlin.io.path.isDirectory
import kotlin.io.path.nameWithoutExtension
class ConfigFileTarget(
override val name: String,
override val defaultEncoding: Encoding,
override val cpu: CpuType,
override val PROGRAM_LOAD_ADDRESS: UInt,
override val PROGRAM_MEMTOP_ADDRESS: UInt,
override val STARTUP_CODE_RESERVED_SIZE: UInt,
override val BSSHIGHRAM_START: UInt,
override val BSSHIGHRAM_END: UInt,
override val BSSGOLDENRAM_START: UInt,
override val BSSGOLDENRAM_END: UInt,
override val defaultOutputType: OutputType,
override val libraryPath: Path,
override val customLauncher: List<String>,
override val additionalAssemblerOptions: List<String>,
val ioAddresses: List<UIntRange>,
val zpScratchB1: UInt,
val zpScratchReg: UInt,
val zpScratchW1: UInt,
val zpScratchW2: UInt,
val zpScratchPtr: UInt,
val virtualregistersStart: UInt,
val zpFullsafe: List<UIntRange>,
val zpKernalsafe: List<UIntRange>,
val zpBasicsafe: List<UIntRange>
): ICompilationTarget, IStringEncoding by Encoder(true), IMemSizer by NormalMemSizer(8) {
companion object {
private fun Properties.getString(property: String): String {
val value = this.getProperty(property, null)
if(value!=null)
return value
throw NoSuchElementException("string property '$property' not found in config file")
}
private fun Properties.getInteger(property: String): UInt {
val value = this.getProperty(property, null)
if(value!=null) return parseInt(value)
throw NoSuchElementException("integer property '$property' not found in config file")
}
private fun parseInt(value: String): UInt {
if(value.startsWith("0x"))
return value.drop(2).toUInt(16)
if(value.startsWith("$"))
return value.drop(1).toUInt(16)
if(value.startsWith("%"))
return value.drop(1).toUInt(2)
return value.toUInt()
}
private fun parseAddressRanges(key: String, props: Properties): List<UIntRange> {
val rangesStr = props.getString(key)
if(rangesStr.isBlank())
return emptyList()
val result = mutableListOf<UIntRange>()
val ranges = rangesStr.split(",").map { it.trim() }
for(r in ranges) {
if ('-' in r) {
val (fromStr, toStr) = r.split("-")
val from = parseInt(fromStr.trim())
val to = parseInt(toStr.trim())
result.add(from..to)
} else {
val address = parseInt(r)
result.add(address..address)
}
}
return result
}
fun fromConfigFile(configfile: Path): ConfigFileTarget {
val props = Properties()
props.load(configfile.inputStream())
val cpuString = props.getString("cpu").uppercase()
val cpuType = try {
CpuType.valueOf(cpuString)
} catch (_: IllegalArgumentException) {
CpuType.valueOf("CPU$cpuString")
}
val ioAddresses = parseAddressRanges("io_regions", props)
val zpFullsafe = parseAddressRanges("zp_fullsafe", props)
val zpKernalsafe = parseAddressRanges("zp_kernalsafe", props)
val zpBasicsafe = parseAddressRanges("zp_basicsafe", props)
val libraryPath = expandTilde(Path(props.getString("library")))
if(!libraryPath.isDirectory())
throw IOException("invalid library path: $libraryPath")
val customLauncherStr = props.getProperty("custom_launcher_code", null)
val customLauncher =
if(customLauncherStr?.isNotBlank()==true)
(customLauncherStr+"\n").lines().map { it.trimEnd() }
else emptyList()
val assemblerOptionsStr = props.getProperty("assembler_options", "").trim()
val outputTypeString = props.getProperty("output_type", "PRG")
val defaultOutputType = OutputType.valueOf(outputTypeString.uppercase())
return ConfigFileTarget(
configfile.nameWithoutExtension,
Encoding.entries.first { it.prefix==props.getString("encoding") },
cpuType,
props.getInteger("load_address"),
props.getInteger("memtop"),
0u, // used only in a very specific error condition check in a certain scenario...
props.getInteger("bss_highram_start"),
props.getInteger("bss_highram_end"),
props.getInteger("bss_goldenram_start"),
props.getInteger("bss_goldenram_end"),
defaultOutputType,
libraryPath,
customLauncher,
if(assemblerOptionsStr=="") emptyList() else assemblerOptionsStr.split(" "),
ioAddresses,
props.getInteger("zp_scratch_b1"),
props.getInteger("zp_scratch_reg"),
props.getInteger("zp_scratch_w1"),
props.getInteger("zp_scratch_w2"),
props.getInteger("zp_scratch_ptr"),
props.getInteger("virtual_registers"),
zpFullsafe,
zpKernalsafe,
zpBasicsafe,
)
}
}
// TODO floats are not yet supported here, just enter some values
override val FLOAT_MAX_POSITIVE = 9.999999999e97
override val FLOAT_MAX_NEGATIVE = -9.999999999e97
override val FLOAT_MEM_SIZE = 8
override lateinit var zeropage: Zeropage
override lateinit var golden: GoldenRam // TODO this is not yet used
override fun getFloatAsmBytes(num: Number) = TODO("floats")
override fun convertFloatToBytes(num: Double): List<UByte> = TODO("floats")
override fun convertBytesToFloat(bytes: List<UByte>): Double = TODO("floats")
override fun launchEmulator(selectedEmulator: Int, programNameWithPath: Path, quiet: Boolean) {
throw IllegalArgumentException("Custom compiler target cannot automatically launch an emulator. Do this manually.")
}
override fun isIOAddress(address: UInt): Boolean = ioAddresses.any { address in it }
override fun initializeMemoryAreas(compilerOptions: CompilationOptions) {
zeropage = ConfigurableZeropage(
zpScratchB1, zpScratchReg, zpScratchW1, zpScratchW2, zpScratchPtr,
virtualregistersStart,
zpBasicsafe,
zpKernalsafe,
zpFullsafe,
compilerOptions
)
// note: there's no golden ram yet
}
}

92
codeCore/src/prog8/code/target/Cx16Target.kt
View File

@@ -1,94 +1,20 @@
package prog8.code.target
import prog8.code.core.*
import prog8.code.target.encodings.Encoder
import prog8.code.target.zp.CX16Zeropage
import java.nio.file.Path
import prog8.code.core.Encoding
import prog8.code.core.ICompilationTarget
import prog8.code.core.IMemSizer
import prog8.code.core.IStringEncoding
import prog8.code.target.cbm.CbmMemorySizer
import prog8.code.target.cx16.CX16MachineDefinition
class Cx16Target: ICompilationTarget,
IStringEncoding by Encoder(true),
IMemSizer by NormalMemSizer(Mflpt5.FLOAT_MEM_SIZE) {
class Cx16Target: ICompilationTarget, IStringEncoding by Encoder, IMemSizer by CbmMemorySizer {
override val name = NAME
override val machine = CX16MachineDefinition()
override val supportedEncodings = setOf(Encoding.PETSCII, Encoding.SCREENCODES, Encoding.ISO)
override val defaultEncoding = Encoding.PETSCII
override val libraryPath = null
override val customLauncher = emptyList<String>()
override val additionalAssemblerOptions = emptyList<String>()
override val defaultOutputType = OutputType.PRG
companion object {
const val NAME = "cx16"
}
override val cpu = CpuType.CPU65C02
override val FLOAT_MAX_POSITIVE = Mflpt5.FLOAT_MAX_POSITIVE
override val FLOAT_MAX_NEGATIVE = Mflpt5.FLOAT_MAX_NEGATIVE
override val FLOAT_MEM_SIZE = Mflpt5.FLOAT_MEM_SIZE
override val STARTUP_CODE_RESERVED_SIZE = 20u
override val PROGRAM_LOAD_ADDRESS = 0x0801u
override val PROGRAM_MEMTOP_ADDRESS = 0x9f00u
override val BSSHIGHRAM_START = 0xa000u // hiram bank 1, 8Kb, assumed to be active
override val BSSHIGHRAM_END = 0xbfffu // Rom starts at $c000
override val BSSGOLDENRAM_START = 0x0400u
override val BSSGOLDENRAM_END = 0x07ffu
override lateinit var zeropage: Zeropage
override lateinit var golden: GoldenRam
override fun getFloatAsmBytes(num: Number) = Mflpt5.fromNumber(num).makeFloatFillAsm()
override fun convertFloatToBytes(num: Double): List<UByte> {
val m5 = Mflpt5.fromNumber(num)
return listOf(m5.b0, m5.b1, m5.b2, m5.b3, m5.b4)
}
override fun convertBytesToFloat(bytes: List<UByte>): Double {
require(bytes.size==5) { "need 5 bytes" }
val m5 = Mflpt5(bytes[0], bytes[1], bytes[2], bytes[3], bytes[4])
return m5.toDouble()
}
override fun launchEmulator(selectedEmulator: Int, programNameWithPath: Path, quiet: Boolean) {
val emulator: String
val extraArgs: List<String>
when(selectedEmulator) {
1 -> {
emulator = "x16emu"
extraArgs = listOf("-debug")
}
2 -> {
emulator = "box16"
extraArgs = listOf("-sym", C64Target.viceMonListName(programNameWithPath.toString()))
}
else -> {
System.err.println("Cx16 target only supports x16emu and box16 emulators.")
return
}
}
if(!quiet)
println("\nStarting Commander X16 emulator $emulator...")
val cmdline = listOf(emulator, "-scale", "2", "-rtc", "-run", "-prg", "${programNameWithPath}.prg") + extraArgs
val processb = ProcessBuilder(cmdline)
if(!quiet)
processb.inheritIO()
processb.environment()["PULSE_LATENCY_MSEC"] = "10"
val process: Process = processb.start()
process.waitFor()
}
override fun isIOAddress(address: UInt): Boolean = address==0u || address==1u || address in 0x9f00u..0x9fffu
override fun initializeMemoryAreas(compilerOptions: CompilationOptions) {
zeropage = CX16Zeropage(compilerOptions)
golden = GoldenRam(compilerOptions, BSSGOLDENRAM_START..BSSGOLDENRAM_END)
}
}

24
codeCore/src/prog8/code/target/encodings/Encoder.kt → codeCore/src/prog8/code/target/Encoder.kt
View File

@@ -1,24 +1,21 @@
package prog8.code.target.encodings
package prog8.code.target
import com.github.michaelbull.result.fold
import prog8.code.core.Encoding
import prog8.code.core.IStringEncoding
import prog8.code.core.InternalCompilerException
import prog8.code.target.cbm.AtasciiEncoding
import prog8.code.target.cbm.IsoEncoding
import prog8.code.target.cbm.PetsciiEncoding
class Encoder(val newlineToCarriageReturn: Boolean): IStringEncoding {
override val defaultEncoding: Encoding = Encoding.ISO
object Encoder: IStringEncoding {
override fun encodeString(str: String, encoding: Encoding): List<UByte> {
val coded = when(encoding) {
Encoding.PETSCII -> PetsciiEncoding.encodePetscii(str, true)
Encoding.SCREENCODES -> PetsciiEncoding.encodeScreencode(str, true)
Encoding.ISO -> IsoEncoding.encode(str, newlineToCarriageReturn)
Encoding.ISO5 -> IsoCyrillicEncoding.encode(str, newlineToCarriageReturn)
Encoding.ISO16 -> IsoEasternEncoding.encode(str, newlineToCarriageReturn)
Encoding.CP437 -> Cp437Encoding.encode(str)
Encoding.KATAKANA -> KatakanaEncoding.encode(str, newlineToCarriageReturn)
Encoding.ISO -> IsoEncoding.encode(str)
Encoding.ATASCII -> AtasciiEncoding.encode(str)
Encoding.C64OS -> C64osEncoding.encode(str)
else -> throw InternalCompilerException("unsupported encoding $encoding")
}
return coded.fold(
@@ -30,13 +27,8 @@ class Encoder(val newlineToCarriageReturn: Boolean): IStringEncoding {
val decoded = when(encoding) {
Encoding.PETSCII -> PetsciiEncoding.decodePetscii(bytes, true)
Encoding.SCREENCODES -> PetsciiEncoding.decodeScreencode(bytes, true)
Encoding.ISO -> IsoEncoding.decode(bytes, newlineToCarriageReturn)
Encoding.ISO5 -> IsoCyrillicEncoding.decode(bytes, newlineToCarriageReturn)
Encoding.ISO16 -> IsoEasternEncoding.decode(bytes, newlineToCarriageReturn)
Encoding.CP437 -> Cp437Encoding.decode(bytes)
Encoding.KATAKANA -> KatakanaEncoding.decode(bytes, newlineToCarriageReturn)
Encoding.ISO -> IsoEncoding.decode(bytes)
Encoding.ATASCII -> AtasciiEncoding.decode(bytes)
Encoding.C64OS -> C64osEncoding.decode(bytes)
else -> throw InternalCompilerException("unsupported encoding $encoding")
}
return decoded.fold(
@@ -44,4 +36,4 @@ class Encoder(val newlineToCarriageReturn: Boolean): IStringEncoding {
success = { it }
)
}
}
}

39
codeCore/src/prog8/code/target/NormalMemSizer.kt
View File

@@ -1,39 +0,0 @@
package prog8.code.target
import prog8.code.core.BaseDataType
import prog8.code.core.DataType
import prog8.code.core.IMemSizer
internal class NormalMemSizer(val floatsize: Int): IMemSizer {
override fun memorySize(dt: DataType, numElements: Int?): Int {
if(dt.isPointerArray)
return 2 * numElements!! // array of pointers is just array of uwords
else if(dt.isArray) {
if(numElements==null) return 2 // treat it as a pointer size
return when(dt.sub) {
BaseDataType.BOOL, BaseDataType.UBYTE, BaseDataType.BYTE -> numElements
BaseDataType.UWORD, BaseDataType.WORD, BaseDataType.STR -> numElements * 2
BaseDataType.LONG -> numElements * 4
BaseDataType.FLOAT-> numElements * floatsize
BaseDataType.UNDEFINED -> throw IllegalArgumentException("undefined has no memory size")
else -> throw IllegalArgumentException("invalid sub type")
}
}
else if (dt.isString) {
return numElements // treat it as the size of the given string with the length
?: 2 // treat it as the size to store a string pointer
}
return when {
dt.isByteOrBool -> 1 * (numElements ?: 1)
dt.isFloat -> floatsize * (numElements ?: 1)
dt.isLong -> 4 * (numElements ?: 1)
dt.isPointer -> 2 // pointer is just a uword
dt.isStructInstance -> dt.subType!!.memsize(this)
dt.isUndefined -> throw IllegalArgumentException("undefined has no memory size")
else -> 2 * (numElements ?: 1)
}
}
}

80
codeCore/src/prog8/code/target/PETTarget.kt
View File

@@ -1,80 +0,0 @@
package prog8.code.target
import prog8.code.core.*
import prog8.code.target.encodings.Encoder
import prog8.code.target.zp.PETZeropage
import java.nio.file.Path
class PETTarget: ICompilationTarget,
IStringEncoding by Encoder(true),
IMemSizer by NormalMemSizer(Mflpt5.FLOAT_MEM_SIZE) {
override val name = NAME
override val defaultEncoding = Encoding.PETSCII
override val libraryPath = null
override val customLauncher = emptyList<String>()
override val additionalAssemblerOptions = emptyList<String>()
override val defaultOutputType = OutputType.PRG
companion object {
const val NAME = "pet32"
}
override val cpu = CpuType.CPU6502
override val FLOAT_MAX_POSITIVE = Mflpt5.FLOAT_MAX_POSITIVE
override val FLOAT_MAX_NEGATIVE = Mflpt5.FLOAT_MAX_NEGATIVE
override val FLOAT_MEM_SIZE = Mflpt5.FLOAT_MEM_SIZE
override val STARTUP_CODE_RESERVED_SIZE = 20u
override val PROGRAM_LOAD_ADDRESS = 0x0401u
override val PROGRAM_MEMTOP_ADDRESS = 0x8000u
override val BSSHIGHRAM_START = 0u
override val BSSHIGHRAM_END = 0u
override val BSSGOLDENRAM_START = 0u
override val BSSGOLDENRAM_END = 0u
override lateinit var zeropage: Zeropage
override lateinit var golden: GoldenRam
override fun getFloatAsmBytes(num: Number) = Mflpt5.fromNumber(num).makeFloatFillAsm()
override fun convertFloatToBytes(num: Double): List<UByte> {
val m5 = Mflpt5.fromNumber(num)
return listOf(m5.b0, m5.b1, m5.b2, m5.b3, m5.b4)
}
override fun convertBytesToFloat(bytes: List<UByte>): Double {
require(bytes.size==5) { "need 5 bytes" }
val m5 = Mflpt5(bytes[0], bytes[1], bytes[2], bytes[3], bytes[4])
return m5.toDouble()
}
override fun launchEmulator(selectedEmulator: Int, programNameWithPath: Path, quiet: Boolean) {
if(selectedEmulator!=1) {
System.err.println("The pet target only supports the main emulator (Vice).")
return
}
if(!quiet)
println("\nStarting PET emulator...")
val viceMonlist = C64Target.viceMonListName(programNameWithPath.toString())
val cmdline = listOf("xpet", "-model", "4032", "-ramsize", "32", "-videosize", "40", "-silent", "-moncommands", viceMonlist,
"-autostartprgmode", "1", "-autostart-warp", "-autostart", "${programNameWithPath}.prg")
val processb = ProcessBuilder(cmdline)
if(!quiet)
processb.inheritIO()
val process=processb.start()
process.waitFor()
}
override fun isIOAddress(address: UInt): Boolean = address in 0xe800u..0xe8ffu
override fun initializeMemoryAreas(compilerOptions: CompilationOptions) {
zeropage = PETZeropage(compilerOptions)
golden = GoldenRam(compilerOptions, UIntRange.EMPTY)
}
}

110
codeCore/src/prog8/code/target/VMTarget.kt
View File

@@ -1,109 +1,27 @@
package prog8.code.target
import prog8.code.core.*
import prog8.code.target.encodings.Encoder
import java.nio.file.Path
import kotlin.io.path.extension
import kotlin.io.path.isReadable
import kotlin.io.path.name
import kotlin.io.path.readText
class VMTarget: ICompilationTarget,
IStringEncoding by Encoder(false),
IMemSizer by NormalMemSizer(FLOAT_MEM_SIZE) {
import prog8.code.target.virtual.VirtualMachineDefinition
class VMTarget: ICompilationTarget, IStringEncoding by Encoder, IMemSizer {
override val name = NAME
override val machine = VirtualMachineDefinition()
override val supportedEncodings = setOf(Encoding.ISO)
override val defaultEncoding = Encoding.ISO
override val libraryPath = null
override val customLauncher = emptyList<String>()
override val additionalAssemblerOptions = emptyList<String>()
override val defaultOutputType = OutputType.PRG
companion object {
const val NAME = "virtual"
const val FLOAT_MEM_SIZE = 8 // 64-bits double
}
override val cpu = CpuType.VIRTUAL
override val FLOAT_MAX_POSITIVE = Double.MAX_VALUE
override val FLOAT_MAX_NEGATIVE = -Double.MAX_VALUE
override val FLOAT_MEM_SIZE = VMTarget.FLOAT_MEM_SIZE
override val STARTUP_CODE_RESERVED_SIZE = 0u // not actually used
override val PROGRAM_LOAD_ADDRESS = 0u // not actually used
override val PROGRAM_MEMTOP_ADDRESS = 0xffffu // not actually used
override val BSSHIGHRAM_START = 0u // not actually used
override val BSSHIGHRAM_END = 0u // not actually used
override val BSSGOLDENRAM_START = 0u // not actually used
override val BSSGOLDENRAM_END = 0u // not actually used
override lateinit var zeropage: Zeropage // not actually used
override lateinit var golden: GoldenRam // not actually used
override fun getFloatAsmBytes(num: Number): String {
// little endian binary representation
val bits = num.toDouble().toBits().toULong()
val hexStr = bits.toString(16).padStart(16, '0')
val parts = hexStr.chunked(2).map { "$$it" }
return parts.joinToString(", ")
override fun memorySize(dt: DataType): Int {
return when(dt) {
in ByteDatatypes -> 1
in WordDatatypes, in PassByReferenceDatatypes -> 2
DataType.FLOAT -> machine.FLOAT_MEM_SIZE
else -> Int.MIN_VALUE
}
}
override fun convertFloatToBytes(num: Double): List<UByte> {
val bits = num.toBits().toULong()
val hexStr = bits.toString(16).padStart(16, '0')
val parts = hexStr.chunked(2).map { it.toInt(16).toUByte() }
return parts
}
override fun convertBytesToFloat(bytes: List<UByte>): Double {
require(bytes.size==8) { "need 8 bytes" }
val b0 = bytes[0].toLong() shl (8*7)
val b1 = bytes[1].toLong() shl (8*6)
val b2 = bytes[2].toLong() shl (8*5)
val b3 = bytes[3].toLong() shl (8*4)
val b4 = bytes[4].toLong() shl (8*3)
val b5 = bytes[5].toLong() shl (8*2)
val b6 = bytes[6].toLong() shl (8*1)
val b7 = bytes[7].toLong() shl (8*0)
return Double.fromBits(b0 or b1 or b2 or b3 or b4 or b5 or b6 or b7)
}
override fun launchEmulator(selectedEmulator: Int, programNameWithPath: Path, quiet: Boolean) {
if(!quiet)
println("\nStarting Virtual Machine...")
// to not have external module dependencies in our own module, we launch the virtual machine via reflection
val vm = Class.forName("prog8.vm.VmRunner").getDeclaredConstructor().newInstance() as IVirtualMachineRunner
val withExt = if(programNameWithPath.extension=="p8ir") programNameWithPath else programNameWithPath.resolveSibling("${programNameWithPath.name}.p8ir")
if(withExt.isReadable())
vm.runProgram(withExt.readText(), quiet)
else
throw java.nio.file.NoSuchFileException(withExt.name, null, "not a .p8ir file")
}
override fun isIOAddress(address: UInt): Boolean = false
override fun initializeMemoryAreas(compilerOptions: CompilationOptions) {
zeropage = VirtualZeropage(compilerOptions)
golden = GoldenRam(compilerOptions, UIntRange.EMPTY)
}
}
interface IVirtualMachineRunner {
fun runProgram(irSource: String, quiet: Boolean)
}
private class VirtualZeropage(options: CompilationOptions): Zeropage(options) {
override val SCRATCH_B1: UInt
get() = throw IllegalStateException("virtual shouldn't use this zeropage variable")
override val SCRATCH_REG: UInt
get() = throw IllegalStateException("virtual shouldn't use this zeropage variable")
override val SCRATCH_W1: UInt
get() = throw IllegalStateException("virtual shouldn't use this zeropage variable")
override val SCRATCH_W2: UInt
get() = throw IllegalStateException("virtual shouldn't use this zeropage variable")
override val SCRATCH_PTR: UInt
get() = throw IllegalStateException("virtual shouldn't use this zeropage variable")
}
override fun memorySize(arrayDt: DataType, numElements: Int) =
memorySize(ArrayToElementTypes.getValue(arrayDt)) * numElements
}

67
codeCore/src/prog8/code/target/atari/AtariMachineDefinition.kt Normal file
View File

@@ -0,0 +1,67 @@
package prog8.code.target.atari
import prog8.code.core.*
import java.nio.file.Path
class AtariMachineDefinition: IMachineDefinition {
override val cpu = CpuType.CPU6502
override val FLOAT_MAX_POSITIVE = 9.999999999e97
override val FLOAT_MAX_NEGATIVE = -9.999999999e97
override val FLOAT_MEM_SIZE = 6
override val PROGRAM_LOAD_ADDRESS = 0x2000u
// the 2*128 byte evaluation stack (1 page, on which bytes, words, and even floats are stored during calculations)
override var ESTACK_LO = 0x1b00u // $1b00-$1b7f inclusive // TODO
override var ESTACK_HI = 0x1b80u // $1b80-$1bff inclusive // TODO
override val BSSHIGHRAM_START = 0u // TODO
override val BSSHIGHRAM_END = 0u // TODO
override lateinit var zeropage: Zeropage
override lateinit var golden: GoldenRam
override fun getFloatAsmBytes(num: Number) = TODO("atari float asm bytes from number")
override fun importLibs(compilerOptions: CompilationOptions, compilationTargetName: String): List<String> {
return if (compilerOptions.output == OutputType.XEX)
listOf("syslib")
else
emptyList()
}
override fun launchEmulator(selectedEmulator: Int, programNameWithPath: Path) {
val emulatorName: String
val cmdline: List<String>
when(selectedEmulator) {
1 -> {
emulatorName = "atari800"
cmdline = listOf(emulatorName, "-xl", "-xl-rev", "2", "-nobasic", "-run", "${programNameWithPath}.xex")
}
2 -> {
emulatorName = "altirra"
cmdline = listOf("Altirra64.exe", "${programNameWithPath.normalize()}.xex")
}
else -> {
System.err.println("Atari target only supports atari800 and altirra emulators.")
return
}
}
// TODO monlist?
println("\nStarting Atari800XL emulator $emulatorName...")
val processb = ProcessBuilder(cmdline).inheritIO()
val process: Process = processb.start()
process.waitFor()
}
override fun isIOAddress(address: UInt): Boolean = address==0u || address==1u || address in 0xd000u..0xdfffu // TODO
override fun initializeMemoryAreas(compilerOptions: CompilationOptions) {
zeropage = AtariZeropage(compilerOptions)
golden = GoldenRam(compilerOptions, UIntRange.EMPTY)
}
}

56
codeCore/src/prog8/code/target/atari/AtariZeropage.kt Normal file
View File

@@ -0,0 +1,56 @@
package prog8.code.target.atari
import prog8.code.core.CompilationOptions
import prog8.code.core.InternalCompilerException
import prog8.code.core.Zeropage
import prog8.code.core.ZeropageType
class AtariZeropage(options: CompilationOptions) : Zeropage(options) {
override val SCRATCH_B1 = 0xcbu // temp storage for a single byte
override val SCRATCH_REG = 0xccu // temp storage for a register, must be B1+1
override val SCRATCH_W1 = 0xcdu // temp storage 1 for a word $cd+$ce
override val SCRATCH_W2 = 0xcfu // temp storage 2 for a word $cf+$d0 TODO is $d0 okay to use?
init {
if (options.floats) {
throw InternalCompilerException("Atari target doesn't yet support floating point routines")
}
if (options.floats && options.zeropage !in arrayOf(
ZeropageType.FLOATSAFE,
ZeropageType.BASICSAFE,
ZeropageType.DONTUSE
))
throw InternalCompilerException("when floats are enabled, zero page type should be 'floatsafe' or 'basicsafe' or 'dontuse'")
when (options.zeropage) {
ZeropageType.FULL -> {
// TODO all atari usable zero page locations, except the ones used by the system's IRQ routine
free.addAll(0x00u..0xffu)
// TODO atari free.removeAll(setOf(0xa0u, 0xa1u, 0xa2u, 0x91u, 0xc0u, 0xc5u, 0xcbu, 0xf5u, 0xf6u)) // these are updated by IRQ
}
ZeropageType.KERNALSAFE -> {
free.addAll(0x80u..0xffu) // TODO
}
ZeropageType.BASICSAFE,
ZeropageType.FLOATSAFE -> {
free.addAll(0x80u..0xffu) // TODO
free.removeAll(0xd4u .. 0xefu) // floating point storage
}
ZeropageType.DONTUSE -> {
free.clear() // don't use zeropage at all
}
}
val distinctFree = free.distinct()
free.clear()
free.addAll(distinctFree)
removeReservedFromFreePool()
}
override fun allocateCx16VirtualRegisters() {
TODO("Not known if atari can put the virtual regs in ZP")
}
}

58
codeCore/src/prog8/code/target/c128/C128MachineDefinition.kt Normal file
View File

@@ -0,0 +1,58 @@
package prog8.code.target.c128
import prog8.code.core.*
import prog8.code.target.C64Target
import prog8.code.target.cbm.Mflpt5
import java.nio.file.Path
class C128MachineDefinition: IMachineDefinition {
override val cpu = CpuType.CPU6502
override val FLOAT_MAX_POSITIVE = Mflpt5.FLOAT_MAX_POSITIVE
override val FLOAT_MAX_NEGATIVE = Mflpt5.FLOAT_MAX_NEGATIVE
override val FLOAT_MEM_SIZE = Mflpt5.FLOAT_MEM_SIZE
override val PROGRAM_LOAD_ADDRESS = 0x1c01u
// the 2*128 byte evaluation stack (1 page, on which bytes, words, and even floats are stored during calculations)
override var ESTACK_LO = 0x1b00u // $1b00-$1b7f inclusive
override var ESTACK_HI = 0x1b80u // $1b80-$1bff inclusive
override val BSSHIGHRAM_START = 0u // TODO
override val BSSHIGHRAM_END = 0u // TODO
override lateinit var zeropage: Zeropage
override lateinit var golden: GoldenRam
override fun getFloatAsmBytes(num: Number) = Mflpt5.fromNumber(num).makeFloatFillAsm()
override fun importLibs(compilerOptions: CompilationOptions, compilationTargetName: String): List<String> {
return if (compilerOptions.launcher == CbmPrgLauncherType.BASIC || compilerOptions.output == OutputType.PRG)
listOf("syslib")
else
emptyList()
}
override fun launchEmulator(selectedEmulator: Int, programNameWithPath: Path) {
if(selectedEmulator!=1) {
System.err.println("The c128 target only supports the main emulator (Vice).")
return
}
println("\nStarting C-128 emulator x128...")
val viceMonlist = C64Target.viceMonListName(programNameWithPath.toString())
val cmdline = listOf("x128", "-silent", "-moncommands", viceMonlist,
"-autostartprgmode", "1", "-autostart-warp", "-autostart", "${programNameWithPath}.prg")
val processb = ProcessBuilder(cmdline).inheritIO()
val process: Process = processb.start()
process.waitFor()
}
override fun isIOAddress(address: UInt): Boolean = address==0u || address==1u || address in 0xd000u..0xdfffu
override fun initializeMemoryAreas(compilerOptions: CompilationOptions) {
zeropage = C128Zeropage(compilerOptions)
golden = GoldenRam(compilerOptions, UIntRange.EMPTY) // TODO does the c128 have some of this somewhere?
}
}

28
codeCore/src/prog8/code/target/zp/C128Zeropage.kt → codeCore/src/prog8/code/target/c128/C128Zeropage.kt
View File

@@ -1,4 +1,4 @@
package prog8.code.target.zp
package prog8.code.target.c128
import prog8.code.core.CompilationOptions
import prog8.code.core.InternalCompilerException
@@ -6,17 +6,22 @@ import prog8.code.core.Zeropage
import prog8.code.core.ZeropageType
// reference: "Mapping the C128" zeropage chapter.
// reference: "Mapping the C128" zero page chapter.
class C128Zeropage(options: CompilationOptions) : Zeropage(options) {
override val SCRATCH_B1 = 0x74u // temp storage for a single byte
override val SCRATCH_REG = 0x75u // temp storage for a register byte, must be B1+1
override val SCRATCH_REG = 0x75u // temp storage for a register, must be B1+1
override val SCRATCH_W1 = 0xfbu // temp storage 1 for a word $fb+$fc
override val SCRATCH_W2 = 0xfdu // temp storage 2 for a word $fd+$fe
override val SCRATCH_PTR = 0x0bu // temp storage for a pointer $0b+$0c
init {
if (options.floats) {
throw InternalCompilerException("C128 target doesn't yet support floating point routines")
// note: in git commit labeled 'c128: remove floats module' the floats.p8 and floats.asm files are removed,
// they could be retrieved again at a later time if the compiler somehow *does* store the fp variables in bank1.
}
if (options.floats && options.zeropage !in arrayOf(
ZeropageType.FLOATSAFE,
ZeropageType.BASICSAFE,
@@ -28,18 +33,18 @@ class C128Zeropage(options: CompilationOptions) : Zeropage(options) {
ZeropageType.FULL -> {
// $00/$01 are data port IO registers, // $02-$09 are storage locations for JSRFAR and such
free.addAll(0x0au..0xffu)
free.removeAll(arrayOf(0x90u, 0x91u, 0xa0u, 0xa1u, 0xa2u, 0xc0u, 0xccu, 0xcdu, 0xd0u, 0xd1u, 0xd2u, 0xd3u, 0xd4u, 0xd5u, 0xf7u)) // these are updated/used by IRQ
free.removeAll(listOf(0x90u, 0x91u, 0xa0u, 0xa1u, 0xa2u, 0xc0u, 0xccu, 0xcdu, 0xd0u, 0xd1u, 0xd2u, 0xd3u, 0xd4u, 0xd5u, 0xf7u)) // these are updated/used by IRQ
}
ZeropageType.KERNALSAFE -> {
free.addAll(0x0au..0x8fu) // BASIC variables
free.addAll(arrayOf(0x92u, 0x96u, 0x9bu, 0x9cu, 0x9eu, 0x9fu, 0xa4u, 0xa7u, 0xa8u, 0xa9u, 0xaau, 0xabu,
free.addAll(listOf(0x92u, 0x96u, 0x9bu, 0x9cu, 0x9eu, 0x9fu, 0xa4u, 0xa7u, 0xa8u, 0xa9u, 0xaau, 0xabu,
0xb0u, 0xb1u, 0xb4u, 0xb5u, 0xb6u))
}
ZeropageType.FLOATSAFE,
ZeropageType.BASICSAFE -> {
free.addAll(arrayOf(0x0bu, 0x0cu, 0x0du, 0x0eu, 0x0fu, 0x10u, 0x11u, 0x12u, 0x16u, 0x17u, 0x18u, 0x19u, 0x1au))
free.addAll(listOf(0x0bu, 0x0cu, 0x0du, 0x0eu, 0x0fu, 0x10u, 0x11u, 0x12u, 0x16u, 0x17u, 0x18u, 0x19u, 0x1au))
free.addAll(0x1bu..0x23u)
free.addAll(arrayOf(0x3fu, 0x40u, 0x41u, 0x42u, 0x43u, 0x44u, 0x47u, 0x48u, 0x49u, 0x4au, 0x4bu, 0x4cu, 0x4fu,
free.addAll(listOf(0x3fu, 0x40u, 0x41u, 0x42u, 0x43u, 0x44u, 0x47u, 0x48u, 0x49u, 0x4au, 0x4bu, 0x4cu, 0x4fu,
0x55u, 0x56u, 0x57u, 0x58u,
0x74u, 0x75u, 0x78u, 0x80u, 0x83u, 0x87u, 0x88u, 0x89u, 0x8au, 0x8bu, 0x8cu, 0x8du, 0x8eu, 0x8fu,
0x92u, 0x96u, 0x9bu, 0x9cu, 0x9eu, 0x9fu, 0xa4u, 0xa7u, 0xa8u, 0xa9u, 0xaau, 0xabu,
@@ -48,7 +53,7 @@ class C128Zeropage(options: CompilationOptions) : Zeropage(options) {
// if(options.zeropage==ZeropageType.BASICSAFE) {
// can also clobber the FP locations (unconditionally, because the C128 target doesn't support floating point calculations in prog8 at this time0
free.addAll(arrayOf(0x14u, 0x28u, 0x29u, 0x2au, 0x2bu, 0x2cu,
free.addAll(listOf(0x14u, 0x28u, 0x29u, 0x2au, 0x2bu, 0x2cu,
0x50u, 0x51u, 0x52u, 0x53u, 0x54u, 0x59u, 0x5au, 0x5bu, 0x5cu, 0x5du, 0x5eu, 0x5fu, 0x60u, 0x61u, 0x62u,
0x63u, 0x64u, 0x65u, 0x66u, 0x67u, 0x68u,
0x6au, 0x6bu, 0x6cu, 0x6du, 0x6eu, 0x6fu, 0x71u))
@@ -64,6 +69,9 @@ class C128Zeropage(options: CompilationOptions) : Zeropage(options) {
free.addAll(distinctFree)
removeReservedFromFreePool()
retainAllowed()
}
override fun allocateCx16VirtualRegisters() {
TODO("Not known if C128 can put the virtual regs in ZP")
}
}

68
codeCore/src/prog8/code/target/c64/C64MachineDefinition.kt Normal file
View File

@@ -0,0 +1,68 @@
package prog8.code.target.c64
import prog8.code.core.*
import prog8.code.target.C64Target
import prog8.code.target.cbm.Mflpt5
import java.io.IOException
import java.nio.file.Path
class C64MachineDefinition: IMachineDefinition {
override val cpu = CpuType.CPU6502
override val FLOAT_MAX_POSITIVE = Mflpt5.FLOAT_MAX_POSITIVE
override val FLOAT_MAX_NEGATIVE = Mflpt5.FLOAT_MAX_NEGATIVE
override val FLOAT_MEM_SIZE = Mflpt5.FLOAT_MEM_SIZE
override val PROGRAM_LOAD_ADDRESS = 0x0801u
// the 2*128 byte evaluation stack (1 page, on which bytes, words, and even floats are stored during calculations)
override var ESTACK_LO = 0xcf00u // $cf00-$cf7f inclusive
override var ESTACK_HI = 0xcf80u // $cf80-$cfff inclusive
override val BSSHIGHRAM_START = 0xc000u
override val BSSHIGHRAM_END = ESTACK_LO
override lateinit var zeropage: Zeropage
override lateinit var golden: GoldenRam
override fun getFloatAsmBytes(num: Number) = Mflpt5.fromNumber(num).makeFloatFillAsm()
override fun importLibs(compilerOptions: CompilationOptions, compilationTargetName: String): List<String> {
return if (compilerOptions.launcher == CbmPrgLauncherType.BASIC || compilerOptions.output == OutputType.PRG)
listOf("syslib")
else
emptyList()
}
override fun launchEmulator(selectedEmulator: Int, programNameWithPath: Path) {
if(selectedEmulator!=1) {
System.err.println("The c64 target only supports the main emulator (Vice).")
return
}
for(emulator in listOf("x64sc", "x64")) {
println("\nStarting C-64 emulator $emulator...")
val viceMonlist = C64Target.viceMonListName(programNameWithPath.toString())
val cmdline = listOf(emulator, "-silent", "-moncommands", viceMonlist,
"-autostartprgmode", "1", "-autostart-warp", "-autostart", "${programNameWithPath}.prg")
val processb = ProcessBuilder(cmdline).inheritIO()
val process: Process
try {
process=processb.start()
} catch(x: IOException) {
continue // try the next emulator executable
}
process.waitFor()
break
}
}
override fun isIOAddress(address: UInt): Boolean = address==0u || address==1u || address in 0xd000u..0xdfffu
override fun initializeMemoryAreas(compilerOptions: CompilationOptions) {
zeropage = C64Zeropage(compilerOptions)
golden = GoldenRam(compilerOptions, 0xc000u until ESTACK_LO)
}
}

24
codeCore/src/prog8/code/target/zp/C64Zeropage.kt → codeCore/src/prog8/code/target/c64/C64Zeropage.kt
View File

@@ -1,4 +1,4 @@
package prog8.code.target.zp
package prog8.code.target.c64
import prog8.code.core.*
@@ -6,10 +6,9 @@ import prog8.code.core.*
class C64Zeropage(options: CompilationOptions) : Zeropage(options) {
override val SCRATCH_B1 = 0x02u // temp storage for a single byte
override val SCRATCH_REG = 0x03u // temp storage for a register byte, must be B1+1
override val SCRATCH_REG = 0x03u // temp storage for a register, must be B1+1
override val SCRATCH_W1 = 0xfbu // temp storage 1 for a word $fb+$fc
override val SCRATCH_W2 = 0xfdu // temp storage 2 for a word $fd+$fe
override val SCRATCH_PTR = 0x9bu // temp storage for a pointer $9b+$9c
init {
@@ -22,10 +21,11 @@ class C64Zeropage(options: CompilationOptions) : Zeropage(options) {
if (options.zeropage == ZeropageType.FULL) {
free.addAll(0x02u..0xffu)
free.removeAll(arrayOf(0xa0u, 0xa1u, 0xa2u, 0x91u, 0xc0u, 0xc5u, 0xcbu, 0xf5u, 0xf6u)) // these are updated by IRQ
free.removeAll(setOf(SCRATCH_B1, SCRATCH_REG, SCRATCH_W1, SCRATCH_W1+1u, SCRATCH_W2, SCRATCH_W2+1u))
free.removeAll(setOf(0xa0u, 0xa1u, 0xa2u, 0x91u, 0xc0u, 0xc5u, 0xcbu, 0xf5u, 0xf6u)) // these are updated by IRQ
} else {
if (options.zeropage == ZeropageType.KERNALSAFE || options.zeropage == ZeropageType.FLOATSAFE) {
free.addAll(arrayOf(
free.addAll(listOf(
0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f,
0x10, 0x11, 0x12, 0x13, 0x14, 0x15, 0x16, 0x17, 0x18, 0x19, 0x1a, 0x1b, 0x1c, 0x1d, 0x1e, 0x1f,
0x20, 0x21, 0x22, 0x23, 0x24, 0x25,
@@ -43,7 +43,7 @@ class C64Zeropage(options: CompilationOptions) : Zeropage(options) {
if (options.zeropage == ZeropageType.FLOATSAFE) {
// remove the zeropage locations used for floating point operations from the free list
free.removeAll(arrayOf(
free.removeAll(listOf(
0x03, 0x04, 0x05, 0x06, 0x10, 0x11, 0x12,
0x22, 0x23, 0x24, 0x25, 0x26, 0x27, 0x28, 0x29, 0x2a,
0x57, 0x58, 0x59, 0x5a, 0x5b, 0x5c, 0x5d, 0x5e, 0x5f, 0x60,
@@ -53,11 +53,11 @@ class C64Zeropage(options: CompilationOptions) : Zeropage(options) {
).map{it.toUInt()})
}
if(options.zeropage != ZeropageType.DONTUSE) {
if(options.zeropage!= ZeropageType.DONTUSE) {
// add the free Zp addresses
// these are valid for the C-64 but allow BASIC to keep running fully *as long as you don't use tape I/O*
free.addAll(arrayOf(0x02, 0x03, 0x04, 0x05, 0x06, 0x0a, 0x0e,
0x92, 0x96, 0x9b, 0x9c, 0x9e, 0x9f, 0xa6,
free.addAll(listOf(0x02, 0x03, 0x04, 0x05, 0x06, 0x0a, 0x0e,
0x92, 0x96, 0x9b, 0x9c, 0x9e, 0x9f, 0xa5, 0xa6,
0xb0, 0xb1, 0xbe, 0xbf, 0xf9).map{it.toUInt()})
} else {
// don't use the zeropage at all
@@ -75,13 +75,11 @@ class C64Zeropage(options: CompilationOptions) : Zeropage(options) {
// in these cases there is enough space on the zero page to stick the cx16 virtual registers in there as well.
allocateCx16VirtualRegisters()
}
retainAllowed()
}
private fun allocateCx16VirtualRegisters() {
override fun allocateCx16VirtualRegisters() {
// Note: the 16 virtual registers R0-R15 are not regular allocated variables, they're *memory mapped* elsewhere to fixed addresses.
// However, to be able for the compiler to "see" them as zeropage variables, we have to register them here as well.
// However, to be able for the compiler to "see" them as zero page variables, we have to register them here as well.
// This is important because the compiler sometimes treats ZP variables more efficiently (for example if it's a pointer)
// The base addres is $04. Unfortunately it cannot be the same as on the Commander X16 ($02).
for(reg in 0..15) {

9
codeCore/src/prog8/code/target/encodings/AtasciiEncoding.kt → codeCore/src/prog8/code/target/cbm/AtasciiEncoding.kt
View File

@@ -1,4 +1,4 @@
package prog8.code.target.encodings
package prog8.code.target.cbm
import com.github.michaelbull.result.Ok
import com.github.michaelbull.result.Result
@@ -26,7 +26,7 @@ object AtasciiEncoding {
'▖',
// $10
'♣',
'♣',
'┌',
'─',
'┼',
@@ -62,7 +62,7 @@ object AtasciiEncoding {
'/',
// $30
'0',
'0',
'1',
'2',
'3',
@@ -80,7 +80,7 @@ object AtasciiEncoding {
'?',
// $40
'@',
'@',
'A',
'B',
'C',
@@ -197,7 +197,6 @@ object AtasciiEncoding {
fun encode(str: String): Result<List<UByte>, CharConversionException> {
val mapped = str.map { chr ->
when (chr) {
'\r' -> 0x9bu
'\u0000' -> 0u
in '\u8000'..'\u80ff' -> {
// special case: take the lower 8 bit hex value directly

18
codeCore/src/prog8/code/target/cbm/CbmMemorySizer.kt Normal file
View File

@@ -0,0 +1,18 @@
package prog8.code.target.cbm
import prog8.code.core.*
internal object CbmMemorySizer: IMemSizer {
override fun memorySize(dt: DataType): Int {
return when(dt) {
in ByteDatatypes -> 1
in WordDatatypes, in PassByReferenceDatatypes -> 2
DataType.FLOAT -> Mflpt5.FLOAT_MEM_SIZE
else -> Int.MIN_VALUE
}
}
override fun memorySize(arrayDt: DataType, numElements: Int) =
memorySize(ArrayToElementTypes.getValue(arrayDt)) * numElements
}

24
codeCore/src/prog8/code/target/encodings/IsoEncoding.kt → codeCore/src/prog8/code/target/cbm/IsoEncoding.kt
View File

@@ -1,4 +1,4 @@
package prog8.code.target.encodings
package prog8.code.target.cbm
import com.github.michaelbull.result.Err
import com.github.michaelbull.result.Ok
@@ -6,16 +6,14 @@ import com.github.michaelbull.result.Result
import java.io.CharConversionException
import java.nio.charset.Charset
object IsoEncoding {
val charset: Charset = Charset.forName("ISO-8859-15")
open class IsoEncodingBase(charsetName: String) {
val charset: Charset = Charset.forName(charsetName)
fun encode(str: String, newlineToCarriageReturn: Boolean): Result<List<UByte>, CharConversionException> {
fun encode(str: String): Result<List<UByte>, CharConversionException> {
return try {
val mapped = str.map { chr ->
when (chr) {
'\u0000' -> 0u
'\n' -> if(newlineToCarriageReturn) 13u else 10u
in '\u8000'..'\u80ff' -> {
// special case: take the lower 8 bit hex value directly
(chr.code - 0x8000).toUByte()
@@ -29,21 +27,11 @@ open class IsoEncodingBase(charsetName: String) {
}
}
fun decode(bytes: Iterable<UByte>, newlineToCarriageReturn: Boolean): Result<String, CharConversionException> {
fun decode(bytes: Iterable<UByte>): Result<String, CharConversionException> {
return try {
Ok(String(bytes.map {
when(it) {
13u.toUByte() -> if(newlineToCarriageReturn) 10 else 13
else -> it.toByte()
}
}.toByteArray(), charset))
Ok(String(bytes.map { it.toByte() }.toByteArray(), charset))
} catch (ce: CharConversionException) {
Err(ce)
}
}
}
object IsoEncoding: IsoEncodingBase("ISO-8859-15")
object IsoCyrillicEncoding: IsoEncodingBase("ISO-8859-5")
object IsoEasternEncoding: IsoEncodingBase("ISO-8859-16")

5
codeCore/src/prog8/code/target/Mflpt5.kt → codeCore/src/prog8/code/target/cbm/Mflpt5.kt
View File

@@ -1,9 +1,10 @@
package prog8.code.target
package prog8.code.target.cbm
import prog8.code.core.InternalCompilerException
import kotlin.math.absoluteValue
import kotlin.math.pow
data class Mflpt5(val b0: UByte, val b1: UByte, val b2: UByte, val b3: UByte, val b4: UByte) {
companion object {
@@ -18,7 +19,7 @@ data class Mflpt5(val b0: UByte, val b1: UByte, val b2: UByte, val b3: UByte, va
// and https://en.wikipedia.org/wiki/IEEE_754-1985
val flt = num.toDouble()
if (flt !in FLOAT_MAX_NEGATIVE..FLOAT_MAX_POSITIVE)
if (flt < FLOAT_MAX_NEGATIVE || flt > FLOAT_MAX_POSITIVE)
throw InternalCompilerException("floating point number out of 5-byte mflpt range: $this")
if (flt == 0.0)
return zero

49
codeCore/src/prog8/code/target/encodings/PetsciiEncoding.kt → codeCore/src/prog8/code/target/cbm/PetsciiEncoding.kt
View File

@@ -1,4 +1,4 @@
package prog8.code.target.encodings
package prog8.code.target.cbm
import com.github.michaelbull.result.Err
import com.github.michaelbull.result.Ok
@@ -7,7 +7,7 @@ import java.io.CharConversionException
object PetsciiEncoding {
// decoding: from Petscii/Screencodes (0-255) to Unicode
// decoding: from Petscii/Screencodes (0-255) to unicode
// character tables used from https://github.com/irmen/cbmcodecs2
private val decodingPetsciiLowercase = charArrayOf(
@@ -21,10 +21,10 @@ object PetsciiEncoding {
'\ufffe', // 0x07 -> UNDEFINED
'\uf118', // 0x08 -> DISABLE CHARACTER SET SWITCHING (CUS)
'\uf119', // 0x09 -> ENABLE CHARACTER SET SWITCHING (CUS)
'\n', // 0x0A -> LINE FEED (RETURN)
'\ufffe', // 0x0A -> UNDEFINED
'\ufffe', // 0x0B -> UNDEFINED
'\ufffe', // 0x0C -> UNDEFINED
'\n' , // 0x0D -> LINE FEED (RETURN)
'\r' , // 0x0D -> CARRIAGE RETURN
'\u000e', // 0x0E -> SHIFT OUT
'\ufffe', // 0x0F -> UNDEFINED
'\ufffe', // 0x10 -> UNDEFINED
@@ -152,7 +152,7 @@ object PetsciiEncoding {
'\uf113', //  0x8A -> FUNCTION KEY 4 (CUS)
'\uf115', //  0x8B -> FUNCTION KEY 6 (CUS)
'\uf117', //  0x8C -> FUNCTION KEY 8 (CUS)
'\r' , // 0x8D -> CARRIAGE RETURN (SHIFT-RETURN)
'\n' , // 0x8D -> LINE FEED
'\u000f', //  0x8E -> SHIFT IN
'\ufffe', // 0x8F -> UNDEFINED
'\uf105', // 0x90 -> BLACK COLOR SWITCH (CUS)
@@ -283,7 +283,7 @@ object PetsciiEncoding {
'\ufffe', // 0x0A -> UNDEFINED
'\ufffe', // 0x0B -> UNDEFINED
'\ufffe', // 0x0C -> UNDEFINED
'\n' , // 0x0D -> LINE FEED (RETURN)
'\r' , // 0x0D -> CARRIAGE RETURN
'\u000e', // 0x0E -> SHIFT OUT
'\ufffe', // 0x0F -> UNDEFINED
'\ufffe', // 0x10 -> UNDEFINED
@@ -411,7 +411,7 @@ object PetsciiEncoding {
'\uf113', // 0x8A -> FUNCTION KEY 4 (CUS)
'\uf115', // 0x8B -> FUNCTION KEY 6 (CUS)
'\uf117', // 0x8C -> FUNCTION KEY 8 (CUS)
'\r' , // 0x8D -> CARRIAGE RETURN (SHIFT-RETURN)
'\n' , // 0x8D -> LINE FEED
'\u000f', // 0x8E -> SHIFT IN
'\ufffe', // 0x8F -> UNDEFINED
'\uf105', // 0x90 -> BLACK COLOR SWITCH (CUS)
@@ -1061,7 +1061,6 @@ object PetsciiEncoding {
'}' -> '├'
'|' -> '│'
'\\' -> '╲'
'\r' -> '\n' // to make \r (carriage returrn) equivalent to \n (line feed): RETURN ($0d)
else -> chr
}
@@ -1077,10 +1076,7 @@ object PetsciiEncoding {
}
else -> {
val case = if (lowercase) "lower" else "upper"
if(chr.isISOControl())
throw CharConversionException("no ${case}Petscii character for char #${chr.code}")
else
throw CharConversionException("no ${case}Petscii character for char #${chr.code} '${chr}'")
throw CharConversionException("no ${case}Petscii character for '${chr}' (${chr.code})")
}
}
}
@@ -1089,7 +1085,7 @@ object PetsciiEncoding {
Ok(text.map {
try {
encodeChar(it, lowercase)
} catch (_: CharConversionException) {
} catch (x: CharConversionException) {
encodeChar(it, !lowercase)
}
})
@@ -1117,18 +1113,13 @@ object PetsciiEncoding {
val screencode = if(lowercase) encodingScreencodeLowercase[chr] else encodingScreencodeUppercase[chr]
return screencode?.toUByte() ?: when (chr) {
'\u0000' -> 0u
'\n' -> 141u
'\r' -> 141u
in '\u8000'..'\u80ff' -> {
// special case: take the lower 8 bit hex value directly
(chr.code - 0x8000).toUByte()
}
else -> {
val case = if (lowercase) "lower" else "upper"
if(chr.isISOControl())
throw CharConversionException("no ${case}Screencode character for char #${chr.code}")
else
throw CharConversionException("no ${case}Screencode character for char #${chr.code} '${chr}'")
throw CharConversionException("no ${case}Screencode character for '${chr}' (${chr.code})")
}
}
}
@@ -1137,7 +1128,7 @@ object PetsciiEncoding {
Ok(text.map {
try {
encodeChar(it, lowercase)
} catch (_: CharConversionException) {
} catch (x: CharConversionException) {
encodeChar(it, !lowercase)
}
})
@@ -1159,16 +1150,16 @@ object PetsciiEncoding {
}
}
fun petscii2scr(petsciicode: UByte, inverseVideo: Boolean): Result<UByte, CharConversionException> {
fun petscii2scr(petscii_code: UByte, inverseVideo: Boolean): Result<UByte, CharConversionException> {
val code: UInt = when {
petsciicode <= 0x1fu -> petsciicode + 128u
petsciicode <= 0x3fu -> petsciicode.toUInt()
petsciicode <= 0x5fu -> petsciicode - 64u
petsciicode <= 0x7fu -> petsciicode - 32u
petsciicode <= 0x9fu -> petsciicode + 64u
petsciicode <= 0xbfu -> petsciicode - 64u
petsciicode <= 0xfeu -> petsciicode - 128u
petsciicode == 255.toUByte() -> 95u
petscii_code <= 0x1fu -> petscii_code + 128u
petscii_code <= 0x3fu -> petscii_code.toUInt()
petscii_code <= 0x5fu -> petscii_code - 64u
petscii_code <= 0x7fu -> petscii_code - 32u
petscii_code <= 0x9fu -> petscii_code + 64u
petscii_code <= 0xbfu -> petscii_code - 64u
petscii_code <= 0xfeu -> petscii_code - 128u
petscii_code == 255.toUByte() -> 95u
else -> return Err(CharConversionException("petscii code out of range"))
}
if(inverseVideo) {

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