🐛 Fix some Simulator on Windows issues (#22516)

This commit is contained in:
Jason Smith 2021-08-08 19:25:17 -07:00 committed by Scott Lahteine
parent dc67705049
commit e3c294dc9b
10 changed files with 93 additions and 85 deletions

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@ -21,6 +21,8 @@
* Support routines for X86_64
*/
#pragma once
/**
* Translation of routines & variables used by pinsDebug.h
*/
@ -37,16 +39,16 @@
#define MULTI_NAME_PAD 16 // space needed to be pretty if not first name assigned to a pin
// active ADC function/mode/code values for PINSEL registers
constexpr int8_t ADC_pin_mode(pin_t pin) {
inline constexpr int8_t ADC_pin_mode(pin_t pin) {
return (-1);
}
int8_t get_pin_mode(pin_t pin) {
inline int8_t get_pin_mode(pin_t pin) {
if (!VALID_PIN(pin)) return -1;
return 0;
}
bool GET_PINMODE(pin_t pin) {
inline bool GET_PINMODE(pin_t pin) {
int8_t pin_mode = get_pin_mode(pin);
if (pin_mode == -1 || pin_mode == ADC_pin_mode(pin)) // found an invalid pin or active analog pin
return false;
@ -54,6 +56,6 @@ bool GET_PINMODE(pin_t pin) {
return (Gpio::getMode(pin) != 0); //input/output state
}
bool GET_ARRAY_IS_DIGITAL(pin_t pin) {
inline bool GET_ARRAY_IS_DIGITAL(pin_t pin) {
return (!IS_ANALOG(pin) || get_pin_mode(pin) != ADC_pin_mode(pin));
}

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@ -59,7 +59,7 @@
#if ENABLED(U8GLIB_ST7920)
#include <U8glib.h>
#include <U8glib-HAL.h>
#include "../../shared/Delay.h"
#undef SPI_SPEED

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@ -63,7 +63,7 @@
#define SPI_SPEED 2 // About 2 MHz
#include <Arduino.h>
#include <U8glib.h>
#include <U8glib-HAL.h>
#ifdef __cplusplus
extern "C" {
@ -209,7 +209,7 @@ uint8_t u8g_com_sw_spi_fn(u8g_t *u8g, uint8_t msg, uint8_t arg_val, void *arg_pt
#endif
#elif !ANY(TFT_COLOR_UI, TFT_CLASSIC_UI, TFT_LVGL_UI, HAS_MARLINUI_HD44780) && HAS_MARLINUI_U8GLIB
#include <U8glib.h>
#include <U8glib-HAL.h>
uint8_t u8g_com_sw_spi_fn(u8g_t *u8g, uint8_t msg, uint8_t arg_val, void *arg_ptr) {return 0;}
#endif // HAS_MARLINUI_U8GLIB && !U8GLIB_ST7920
#endif // __PLAT_NATIVE_SIM__

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@ -322,7 +322,7 @@ void hook_cpu_exceptions() {
unsigned long *vecAddr = (unsigned long*)get_vtor();
SERIAL_ECHOPGM("Vector table addr: ");
SERIAL_PRINTLN(get_vtor(), HEX);
SERIAL_PRINTLN(get_vtor(), PrintBase::Hex);
#ifdef VECTOR_TABLE_SIZE
uint32_t vec_size = VECTOR_TABLE_SIZE;
@ -349,7 +349,7 @@ void hook_cpu_exceptions() {
alignas(128) static unsigned long vectable[VECTOR_TABLE_SENTINEL];
SERIAL_ECHOPGM("Detected vector table size: ");
SERIAL_PRINTLN(vec_size, HEX);
SERIAL_PRINTLN(vec_size, PrintBase::Hex);
#endif
uint32_t defaultFaultHandler = vecAddr[(unsigned)7];

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@ -76,17 +76,6 @@ void serialprintPGM(PGM_P str) {
void serial_echo_start() { static PGMSTR(echomagic, "echo:"); serialprintPGM(echomagic); }
void serial_error_start() { static PGMSTR(errormagic, "Error:"); serialprintPGM(errormagic); }
void serial_echopair_PGM(PGM_P const s_P, serial_char_t v) { serialprintPGM(s_P); SERIAL_CHAR(v.c); }
void serial_echopair_PGM(PGM_P const s_P, const char *v) { serialprintPGM(s_P); SERIAL_ECHO(v); }
void serial_echopair_PGM(PGM_P const s_P, char v) { serialprintPGM(s_P); SERIAL_ECHO(v); }
void serial_echopair_PGM(PGM_P const s_P, int v) { serialprintPGM(s_P); SERIAL_ECHO(v); }
void serial_echopair_PGM(PGM_P const s_P, long v) { serialprintPGM(s_P); SERIAL_ECHO(v); }
void serial_echopair_PGM(PGM_P const s_P, float v) { serialprintPGM(s_P); SERIAL_DECIMAL(v); }
void serial_echopair_PGM(PGM_P const s_P, double v) { serialprintPGM(s_P); SERIAL_DECIMAL(v); }
void serial_echopair_PGM(PGM_P const s_P, unsigned char v) { serialprintPGM(s_P); SERIAL_ECHO(v); }
void serial_echopair_PGM(PGM_P const s_P, unsigned int v) { serialprintPGM(s_P); SERIAL_ECHO(v); }
void serial_echopair_PGM(PGM_P const s_P, unsigned long v) { serialprintPGM(s_P); SERIAL_ECHO(v); }
void serial_spaces(uint8_t count) { count *= (PROPORTIONAL_FONT_RATIO); while (count--) SERIAL_CHAR(' '); }
void serial_ternary(const bool onoff, PGM_P const pre, PGM_P const on, PGM_P const off, PGM_P const post/*=nullptr*/) {

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@ -177,8 +177,8 @@ void SERIAL_ECHOLN(T x) { SERIAL_IMPL.println(x); }
template <typename T, typename U>
void SERIAL_PRINT(T x, U y) { SERIAL_IMPL.print(x, y); }
template <typename T, typename U>
void SERIAL_PRINTLN(T x, U y) { SERIAL_IMPL.println(x, y); }
template <typename T>
void SERIAL_PRINTLN(T x, PrintBase y) { SERIAL_IMPL.println(x, y); }
// Flush the serial port
inline void SERIAL_FLUSH() { SERIAL_IMPL.flush(); }
@ -293,21 +293,18 @@ void serialprintPGM(PGM_P str);
//
// Functions for serial printing from PROGMEM. (Saves loads of SRAM.)
//
void serial_echopair_PGM(PGM_P const s_P, serial_char_t v);
void serial_echopair_PGM(PGM_P const s_P, const char *v);
void serial_echopair_PGM(PGM_P const s_P, char v);
void serial_echopair_PGM(PGM_P const s_P, int v);
void serial_echopair_PGM(PGM_P const s_P, long v);
void serial_echopair_PGM(PGM_P const s_P, float v);
void serial_echopair_PGM(PGM_P const s_P, double v);
void serial_echopair_PGM(PGM_P const s_P, unsigned char v);
void serial_echopair_PGM(PGM_P const s_P, unsigned int v);
void serial_echopair_PGM(PGM_P const s_P, unsigned long v);
inline void serial_echopair_PGM(PGM_P const s_P, serial_char_t v) { serialprintPGM(s_P); SERIAL_CHAR(v.c); }
inline void serial_echopair_PGM(PGM_P const s_P, float v) { serialprintPGM(s_P); SERIAL_DECIMAL(v); }
inline void serial_echopair_PGM(PGM_P const s_P, double v) { serialprintPGM(s_P); SERIAL_DECIMAL(v); }
inline void serial_echopair_PGM(PGM_P const s_P, const char *v) { serialprintPGM(s_P); SERIAL_ECHO(v); }
// Default implementation for types without a specialization. Handles integers.
template <typename T>
void serial_echopair_PGM(PGM_P const s_P, T v) { serialprintPGM(s_P); SERIAL_ECHO(v); }
inline void serial_echopair_PGM(PGM_P const s_P, bool v) { serial_echopair_PGM(s_P, (int)v); }
inline void serial_echopair_PGM(PGM_P const s_P, void *v) { serial_echopair_PGM(s_P, (uintptr_t)v); }
#if __INTPTR_WIDTH__ != __SIZE_WIDTH__
inline void serial_echopair_PGM(PGM_P const s_P, size_t v) { serial_echopair_PGM(s_P, (long int)v); }
#endif
void serial_echo_start();
void serial_error_start();

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@ -74,12 +74,12 @@ CALL_IF_EXISTS_IMPL(SerialFeature, features, SerialFeature::None);
// for any type other than double/float. For double/float, a conversion exists so the call will be invisible.
struct EnsureDouble {
double a;
FORCE_INLINE operator double() { return a; }
operator double() { return a; }
// If the compiler breaks on ambiguity here, it's likely because print(X, base) is called with X not a double/float, and
// a base that's not a PrintBase value. This code is made to detect the error. You MUST set a base explicitly like this:
// SERIAL_PRINT(v, PrintBase::Hex)
FORCE_INLINE EnsureDouble(double a) : a(a) {}
FORCE_INLINE EnsureDouble(float a) : a(a) {}
EnsureDouble(double a) : a(a) {}
EnsureDouble(float a) : a(a) {}
};
// Using Curiously-Recurring Template Pattern here to avoid virtual table cost when compiling.
@ -136,70 +136,90 @@ struct SerialBase {
void flushTX() { CALL_IF_EXISTS(void, SerialChild, flushTX); }
// Glue code here
FORCE_INLINE void write(const char *str) { while (*str) write(*str++); }
FORCE_INLINE void write(const uint8_t *buffer, size_t size) { while (size--) write(*buffer++); }
FORCE_INLINE void print(const char *str) { write(str); }
void write(const char *str) { while (*str) write(*str++); }
void write(const uint8_t *buffer, size_t size) { while (size--) write(*buffer++); }
void print(char *str) { write(str); }
void print(const char *str) { write(str); }
// No default argument to avoid ambiguity
NO_INLINE void print(char c, PrintBase base) { printNumber((signed long)c, (uint8_t)base); }
NO_INLINE void print(unsigned char c, PrintBase base) { printNumber((unsigned long)c, (uint8_t)base); }
NO_INLINE void print(int c, PrintBase base) { printNumber((signed long)c, (uint8_t)base); }
NO_INLINE void print(unsigned int c, PrintBase base) { printNumber((unsigned long)c, (uint8_t)base); }
void print(unsigned long c, PrintBase base) { printNumber((unsigned long)c, (uint8_t)base); }
void print(long c, PrintBase base) { printNumber((signed long)c, (uint8_t)base); }
void print(EnsureDouble c, int digits) { printFloat(c, digits); }
// Define print for every fundamental integer type, to ensure that all redirect properly
// to the correct underlying implementation.
// Prints are performed with a single size, to avoid needing multiple print functions.
// The fixed integer size used for prints will be the larger of long or a pointer.
#if __LONG_WIDTH__ >= __INTPTR_WIDTH__
typedef long int_fixed_print_t;
typedef unsigned long uint_fixed_print_t;
#else
typedef intptr_t int_fixed_print_t;
typedef uintptr_t uint_fixed_print_t;
FORCE_INLINE void print(intptr_t c, PrintBase base) { printNumber_signed(c, base); }
FORCE_INLINE void print(uintptr_t c, PrintBase base) { printNumber_unsigned(c, base); }
#endif
FORCE_INLINE void print(char c, PrintBase base) { printNumber_signed(c, base); }
FORCE_INLINE void print(short c, PrintBase base) { printNumber_signed(c, base); }
FORCE_INLINE void print(int c, PrintBase base) { printNumber_signed(c, base); }
FORCE_INLINE void print(long c, PrintBase base) { printNumber_signed(c, base); }
FORCE_INLINE void print(unsigned char c, PrintBase base) { printNumber_unsigned(c, base); }
FORCE_INLINE void print(unsigned short c, PrintBase base) { printNumber_unsigned(c, base); }
FORCE_INLINE void print(unsigned int c, PrintBase base) { printNumber_unsigned(c, base); }
FORCE_INLINE void print(unsigned long c, PrintBase base) { printNumber_unsigned(c, base); }
void print(EnsureDouble c, int digits) { printFloat(c, digits); }
// Forward the call to the former's method
FORCE_INLINE void print(char c) { print(c, PrintBase::Dec); }
FORCE_INLINE void print(unsigned char c) { print(c, PrintBase::Dec); }
FORCE_INLINE void print(int c) { print(c, PrintBase::Dec); }
FORCE_INLINE void print(unsigned int c) { print(c, PrintBase::Dec); }
FORCE_INLINE void print(unsigned long c) { print(c, PrintBase::Dec); }
FORCE_INLINE void print(long c) { print(c, PrintBase::Dec); }
FORCE_INLINE void print(double c) { print(c, 2); }
FORCE_INLINE void println(const char s[]) { print(s); println(); }
FORCE_INLINE void println(char c, PrintBase base) { print(c, base); println(); }
FORCE_INLINE void println(unsigned char c, PrintBase base) { print(c, base); println(); }
FORCE_INLINE void println(int c, PrintBase base) { print(c, base); println(); }
FORCE_INLINE void println(unsigned int c, PrintBase base) { print(c, base); println(); }
FORCE_INLINE void println(long c, PrintBase base) { print(c, base); println(); }
FORCE_INLINE void println(unsigned long c, PrintBase base) { print(c, base); println(); }
FORCE_INLINE void println(double c, int digits) { print(c, digits); println(); }
FORCE_INLINE void println() { write('\r'); write('\n'); }
// Default implementation for anything without a specialization
// This handles integers since they are the most common
template <typename T>
void print(T c) { print(c, PrintBase::Dec); }
void print(float c) { print(c, 2); }
void print(double c) { print(c, 2); }
void println(char *s) { print(s); println(); }
void println(const char *s) { print(s); println(); }
void println(float c, int digits) { print(c, digits); println(); }
void println(double c, int digits) { print(c, digits); println(); }
void println() { write('\r'); write('\n'); }
// Default implementations for types without a specialization. Handles integers.
template <typename T>
void println(T c, PrintBase base) { print(c, base); println(); }
template <typename T>
void println(T c) { println(c, PrintBase::Dec); }
// Forward the call to the former's method
FORCE_INLINE void println(char c) { println(c, PrintBase::Dec); }
FORCE_INLINE void println(unsigned char c) { println(c, PrintBase::Dec); }
FORCE_INLINE void println(int c) { println(c, PrintBase::Dec); }
FORCE_INLINE void println(unsigned int c) { println(c, PrintBase::Dec); }
FORCE_INLINE void println(unsigned long c) { println(c, PrintBase::Dec); }
FORCE_INLINE void println(long c) { println(c, PrintBase::Dec); }
FORCE_INLINE void println(double c) { println(c, 2); }
void println(float c) { println(c, 2); }
void println(double c) { println(c, 2); }
// Print a number with the given base
NO_INLINE void printNumber(unsigned long n, const uint8_t base) {
if (!base) return; // Hopefully, this should raise visible bug immediately
NO_INLINE void printNumber_unsigned(uint_fixed_print_t n, PrintBase base) {
if (n) {
unsigned char buf[8 * sizeof(long)]; // Enough space for base 2
int8_t i = 0;
while (n) {
buf[i++] = n % base;
n /= base;
buf[i++] = n % (uint_fixed_print_t)base;
n /= (uint_fixed_print_t)base;
}
while (i--) write((char)(buf[i] + (buf[i] < 10 ? '0' : 'A' - 10)));
}
else write('0');
}
void printNumber(signed long n, const uint8_t base) {
if (base == 10 && n < 0) {
NO_INLINE void printNumber_signed(int_fixed_print_t n, PrintBase base) {
if (base == PrintBase::Dec && n < 0) {
n = -n; // This works because all platforms Marlin's builds on are using 2-complement encoding for negative number
// On such CPU, changing the sign of a number is done by inverting the bits and adding one, so if n = 0x80000000 = -2147483648 then
// -n = 0x7FFFFFFF + 1 => 0x80000000 = 2147483648 (if interpreted as unsigned) or -2147483648 if interpreted as signed.
// On non 2-complement CPU, there would be no possible representation for 2147483648.
write('-');
}
printNumber((unsigned long)n , base);
printNumber_unsigned((uint_fixed_print_t)n , base);
}
// Print a decimal number
@ -218,7 +238,7 @@ struct SerialBase {
// Extract the integer part of the number and print it
unsigned long int_part = (unsigned long)number;
double remainder = number - (double)int_part;
printNumber(int_part, 10);
printNumber_unsigned(int_part, PrintBase::Dec);
// Print the decimal point, but only if there are digits beyond
if (digits) {
@ -227,7 +247,7 @@ struct SerialBase {
while (digits--) {
remainder *= 10.0;
unsigned long toPrint = (unsigned long)remainder;
printNumber(toPrint, 10);
printNumber_unsigned(toPrint, PrintBase::Dec);
remainder -= toPrint;
}
}

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@ -208,7 +208,7 @@
#if ENABLED(STOP_ON_ERROR)
void report_driver_error(const TMC_driver_data &data) {
SERIAL_ECHOPGM(" driver error detected: 0x");
SERIAL_PRINTLN(data.drv_status, HEX);
SERIAL_PRINTLN(data.drv_status, PrintBase::Hex);
if (data.is_ot) SERIAL_ECHOLNPGM("overtemperature");
if (data.is_s2g) SERIAL_ECHOLNPGM("coil short circuit");
TERN_(TMC_DEBUG, tmc_report_all());

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@ -330,7 +330,7 @@ void tmc_print_current(TMC &st) {
void tmc_print_sgt(TMC &st) {
st.printLabel();
SERIAL_ECHOPGM(" homing sensitivity: ");
SERIAL_PRINTLN(st.homing_threshold(), DEC);
SERIAL_PRINTLN(st.homing_threshold(), PrintBase::Dec);
}
#endif

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@ -120,11 +120,11 @@ build_unflags = ${simulator_macos.build_unflags}
# Simulator for Windows 10
#
# MSYS2 mingw-w64-x86_64 with these packages:
# pacman -S --needed base-devel mingw-w64-x86_64-toolchain mingw64/mingw-w64-x86_64-glm mingw64/mingw-w64-x86_64-SDL2 mingw64/mingw-w64-x86_64-SDL2_net
# pacman -S --needed base-devel mingw-w64-x86_64-toolchain mingw64/mingw-w64-x86_64-glm mingw64/mingw-w64-x86_64-SDL2 mingw64/mingw-w64-x86_64-SDL2_net mingw-w64-x86_64-dlfcn
#
[env:simulator_windows]
platform = ${simulator_common.platform}
extends = simulator_common
src_build_flags = ${simulator_common.src_build_flags} -fpermissive
build_flags = ${simulator_common.build_flags} ${simulator_common.debug_build_flags} -fno-stack-protector -Wl,-subsystem,windows -ldl -lmingw32 -lSDL2main -lSDL2 -lSDL2_net -lopengl32 -lssp
build_flags = ${simulator_common.build_flags} ${simulator_common.debug_build_flags} -IC:\\msys64\\mingw64\\include\\SDL2 -fno-stack-protector -Wl,-subsystem,windows -ldl -lmingw32 -lSDL2main -lSDL2 -lSDL2_net -lopengl32 -lssp
build_type = debug