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227098ec52
apple2ix/src/test/testdisplay.c
Aaron Culliney 227098ec52 Refactor video/display rendering 
- Import NTSC video display modes
    - Migrate to using full-color framebuffers
    - Mac and Android builds somewhat working
    - TODO : likely breaks display testing
2018-11-04 14:07:30 -08:00

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C
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/*
* Apple // emulator for *ix
*
* This software package is subject to the GNU General Public License
* version 3 or later (your choice) as published by the Free Software
* Foundation.
*
* Copyright 2013-2015 Aaron Culliney
*
*/
#include "testcommon.h"
static bool test_thread_running = false;
static color_mode_t test_color_mode = COLOR_MODE_COLOR;
extern pthread_mutex_t interface_mutex; // TODO FIXME : raw access to CPU mutex because stepping debugger ...
static void testdisplay_setup(void *arg) {
test_setup_boot_disk("testdisplay1.dsk.gz", 1);
test_common_setup();
apple_ii_64k[0][MIXSWITCH_ADDR] = 0x00;
apple_ii_64k[0][WATCHPOINT_ADDR] = 0x00;
run_args.joy_button0 = 0xff; // OpenApple
if (test_do_reboot) {
cpu65_interrupt(ResetSig);
}
prefs_setLongValue(PREF_DOMAIN_VIDEO, PREF_COLOR_MODE, test_color_mode);
prefs_sync(PREF_DOMAIN_VIDEO);
}
static void testdisplay_teardown(void *arg) {
test_color_mode = COLOR_MODE_COLOR;
test_do_reboot = true;
}
// ----------------------------------------------------------------------------
// Various Display Tests ...
#if VIDEO_TRACING
# define EXPECTED_BOOT_VIDEO_TRACE_FILE_SIZE 1484244660
# define EXPECTED_BOOT_VIDEO_TRACE_FILE_SHA "26b9e21914d4047e6b190fb4f6fcb6854a4eaa25"
// NOTE that CONFORMANT_TRACKS codepaths will change the output of this tracing (just like cpu tracing)
// - Data in screen holes (e.g., 0478-047F is used by Disk ][
// - Longer boot time with CONFORMANT_TRACKS will add more frames of output
# if CONFORMANT_TRACKS
TEST test_boot_video_trace(void) {
const char *homedir = HOMEDIR;
char *traceFile = NULL;
ASPRINTF(&traceFile, "%s/a2_boot_video_trace.txt", homedir);
ASSERT(traceFile);
unlink(traceFile);
video_scannerTraceBegin(traceFile, 0);
BOOT_TO_DOS();
video_scannerTraceEnd();
do {
uint8_t md[SHA_DIGEST_LENGTH];
char mdstr0[(SHA_DIGEST_LENGTH*2)+1];
FILE *fp = fopen(traceFile, "r");
fseek(fp, 0, SEEK_END);
long expectedSize = ftell(fp);
ASSERT(expectedSize == EXPECTED_BOOT_VIDEO_TRACE_FILE_SIZE);
fseek(fp, 0, SEEK_SET);
unsigned char *buf = MALLOC(EXPECTED_BOOT_VIDEO_TRACE_FILE_SIZE);
if (fread(buf, 1, EXPECTED_BOOT_VIDEO_TRACE_FILE_SIZE, fp) != EXPECTED_BOOT_VIDEO_TRACE_FILE_SIZE) {
ASSERT(false);
}
fclose(fp); fp = NULL;
SHA1(buf, EXPECTED_BOOT_VIDEO_TRACE_FILE_SIZE, md);
FREE(buf);
sha1_to_str(md, mdstr0);
ASSERT(strcasecmp(mdstr0, EXPECTED_BOOT_VIDEO_TRACE_FILE_SHA) == 0);
} while(0);
unlink(traceFile);
FREE(traceFile);
PASS();
}
# endif
# undef EXPECTED_BOOT_VIDEO_TRACE_FILE_SIZE
# undef EXPECTED_BOOT_VIDEO_TRACE_FILE_SHA
# define EXPECTED_TRACE_40COL_FILE_SIZ 698230
# define EXPECTED_TRACE_40COL_FILE_SHA "2B8C050F84776A78F73A7AE803A474820E11B3C1"
TEST test_video_trace_40col(void) {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("CATALOG\r\rPOKE7987,255:REM TRIGGER DEBUGGER\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
apple_ii_64k[0][WATCHPOINT_ADDR] = 0x0;
const char *homedir = HOMEDIR;
char *traceFile = NULL;
ASPRINTF(&traceFile, "%s/a2_video_trace_40col.txt", homedir);
ASSERT(traceFile);
unlink(traceFile);
video_scannerTraceBegin(traceFile, 1);
debugger_setBreakCallback(&video_scannerTraceShouldStop);
c_debugger_go();
debugger_setBreakCallback(NULL);
video_scannerTraceEnd();
do {
uint8_t md[SHA_DIGEST_LENGTH];
char mdstr0[(SHA_DIGEST_LENGTH*2)+1];
FILE *fp = fopen(traceFile, "r");
ASSERT(fp);
fseek(fp, 0, SEEK_END);
long expectedSize = ftell(fp);
ASSERT(expectedSize == EXPECTED_TRACE_40COL_FILE_SIZ);
fseek(fp, 0, SEEK_SET);
unsigned char *buf = MALLOC(EXPECTED_TRACE_40COL_FILE_SIZ);
if (fread(buf, 1, EXPECTED_TRACE_40COL_FILE_SIZ, fp) != EXPECTED_TRACE_40COL_FILE_SIZ) {
ASSERT(false);
}
fclose(fp); fp = NULL;
SHA1(buf, EXPECTED_TRACE_40COL_FILE_SIZ, md);
FREE(buf);
sha1_to_str(md, mdstr0);
ASSERT(strcasecmp(mdstr0, EXPECTED_TRACE_40COL_FILE_SHA) == 0);
} while(0);
unlink(traceFile);
FREE(traceFile);
PASS();
}
# undef EXPECTED_TRACE_40COL_FILE_SIZ
# undef EXPECTED_TRACE_40COL_FILE_SHA
# define EXPECTED_TRACE_LILTEXWIN_FILE_SIZ 613920
# define EXPECTED_TRACE_LILTEXWIN_FILE_SHA "97cf740a3697d8046b0756c7c2baedc893d46237"
TEST test_video_trace_liltexwin(void) {
test_setup_boot_disk("testdisplay2.dsk.gz", 1); // boots directly into LILTEXWIN
BOOT_TO_DOS();
c_debugger_set_timeout(5);
c_debugger_clear_watchpoints();
c_debugger_go();
c_debugger_set_timeout(0);
const char *homedir = HOMEDIR;
char *traceFile = NULL;
ASPRINTF(&traceFile, "%s/a2_video_trace_liltexwin.txt", homedir);
ASSERT(traceFile);
unlink(traceFile);
video_scannerTraceBegin(traceFile, 1);
debugger_setBreakCallback(&video_scannerTraceShouldStop);
c_debugger_go();
debugger_setBreakCallback(NULL);
c_debugger_set_watchpoint(WATCHPOINT_ADDR);
video_scannerTraceEnd();
do {
uint8_t md[SHA_DIGEST_LENGTH];
char mdstr0[(SHA_DIGEST_LENGTH*2)+1];
FILE *fp = fopen(traceFile, "r");
ASSERT(fp);
fseek(fp, 0, SEEK_END);
long expectedSize = ftell(fp);
ASSERT(expectedSize == EXPECTED_TRACE_LILTEXWIN_FILE_SIZ);
fseek(fp, 0, SEEK_SET);
unsigned char *buf = MALLOC(EXPECTED_TRACE_LILTEXWIN_FILE_SIZ);
if (fread(buf, 1, EXPECTED_TRACE_LILTEXWIN_FILE_SIZ, fp) != EXPECTED_TRACE_LILTEXWIN_FILE_SIZ) {
ASSERT(false);
}
fclose(fp); fp = NULL;
SHA1(buf, EXPECTED_TRACE_LILTEXWIN_FILE_SIZ, md);
FREE(buf);
sha1_to_str(md, mdstr0);
ASSERT(strcasecmp(mdstr0, EXPECTED_TRACE_LILTEXWIN_FILE_SHA) == 0);
} while(0);
unlink(traceFile);
FREE(traceFile);
PASS();
}
# undef EXPECTED_TRACE_LILTEXWIN_FILE_SIZ
# undef EXPECTED_TRACE_LILTEXWIN_FILE_SHA
#endif
// ----------------------------------------------------------------------------
// TEXT
TEST test_40col_normal() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("RUN TESTNORMALTEXT\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
ASSERT_SHA("51E5960115380C64351ED00A2ACAB0EB67970249");
PASS();
}
TEST test_80col_normal() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("PR#3\rRUN TESTNORMALTEXT\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
ASSERT_SHA("ED9CE59F41A51A5ABB1617383A411455677A78E3");
PASS();
}
TEST test_40col_inverse() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("RUN TESTINVERSETEXT\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
ASSERT_SHA("20957B960C3C0DE0ABEE0058A08C0DDA24AB31D8");
PASS();
}
TEST test_80col_inverse() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("PR#3\rRUN TESTINVERSETEXT\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
ASSERT_SHA("037798F4BCF740D0A7CBF7CDF5FC5D1B0B3C77A2");
PASS();
}
// ----------------------------------------------------------------------------
// LORES
//
TEST test_lores_with_80col() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("TEXT\rPR#3\rRUN TESTLORES\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
if (test_color_mode == COLOR_MODE_MONO) {
WAIT_FOR_FB_SHA("DED166782E9C529B6D7DB2EEBFF5877AD49C4C1F");
} else {
#if !CONFORMANT_TRACKS
ASSERT_SHA("7B642FF04DE03142A2CE1062C28A4D92E492EDDC");
#endif
WAIT_FOR_FB_SHA("09C732B37F9E482C8CBE38DA97C99EE640EB8913");
}
PASS();
}
TEST test_lores_with_40col() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("TEXT\rHOME\rLOAD TESTLORES\rLIST\rLIST\rRUN\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
if (test_color_mode == COLOR_MODE_MONO) {
WAIT_FOR_FB_SHA("270B44B639E062B1DC7C2EB2E561051130F5F790");
} else {
ASSERT_SHA_OLD("D7DC78F5718B4CF8716614E79ADABCAB919FCE5D");
WAIT_FOR_FB_SHA("36287232F7FD4574AA5E05F1C6CACB598C9C2903");
ASSERT_SHA ("36287232F7FD4574AA5E05F1C6CACB598C9C2903"); // stable through next frame
}
PASS();
}
TEST test_lores_with_40col_2() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("RUNTESTLORES_2\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
if (test_color_mode == COLOR_MODE_MONO) {
WAIT_FOR_FB_SHA("A3D5F5DF7A2DF15DDDF7E82F83B756827CD142D3");
} else {
WAIT_FOR_FB_SHA("D7CC29D2030230258FAFF3772C8F9AD2B318D190");
}
PASS();
}
TEST test_lores_40colmix_normal() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("TEXT\rHOME\rLOAD TESTLORES\rLIST\rLIST\rPOKE 7986,127\rRUN\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
if (test_color_mode == COLOR_MODE_MONO) {
WAIT_FOR_FB_SHA("373799861AFCA845826C27571D2FFF7F1CB69BD6");
} else {
#if !CONFORMANT_TRACKS
ASSERT_SHA("9097A6AE967E4501B40C7CD7EEE115B8C478B345");
#endif
WAIT_FOR_FB_SHA("B460804F69A416D78462818493933BA2FFEB70C8");
}
PASS();
}
TEST test_lores_40colmix_inverse() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("TEXT\rINVERSE\rHOME\rLOAD TESTLORES\rLIST\rLIST\rPOKE 7986,127\rRUN\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
if (test_color_mode == COLOR_MODE_MONO) {
WAIT_FOR_FB_SHA("F9F4757BB751AD47D975D45DC75B3C93C9F2C6C8");
} else {
ASSERT_SHA_OLD("5256E8B96CB04F48324B587ECCCF8A435077B5DE");
WAIT_FOR_FB_SHA("C2ADD78885B65F7D2FA84F999B06CB32D25EF8A0");
ASSERT_SHA ("C2ADD78885B65F7D2FA84F999B06CB32D25EF8A0"); // stable through next frame
}
PASS();
}
TEST test_lores_80colmix_normal() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("TEXT\rPR#3\rLOAD TESTLORES\rLIST\rLIST\rPOKE 7986,127\rRUN\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
if (test_color_mode == COLOR_MODE_MONO) {
WAIT_FOR_FB_SHA("DD2A3A05EA38652A86D144FFB5BD98CB24A82FF6");
} else {
ASSERT_SHA_OLD("9D5D5382B0A18A71DC135CAD51BEA2665ADB5FB2");
WAIT_FOR_FB_SHA("610E61D466AAE88CF694B3E1029D3D4C28D1D820");
ASSERT_SHA ("610E61D466AAE88CF694B3E1029D3D4C28D1D820"); // stable through next frame
}
PASS();
}
TEST test_lores_80colmix_inverse() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("TEXT\rINVERSE\rPR#3\rLOAD TESTLORES\rLIST\rLIST\rPOKE 7986,127\rRUN\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
if (test_color_mode == COLOR_MODE_MONO) {
WAIT_FOR_FB_SHA("0D51D6A375820FE36E4D95127F0E7A8F71495F4A");
} else {
ASSERT_SHA_OLD("7936E87BE1F920AACD43268DB288746528E89959");
WAIT_FOR_FB_SHA("CBAEE8961F20079BF45CD197878F1111A6E89E26");
ASSERT_SHA ("CBAEE8961F20079BF45CD197878F1111A6E89E26"); // stable through next frame
}
PASS();
}
// ----------------------------------------------------------------------------
// HIRES
//
#define MOIRE_SHA "1A5DD96B7E3538C2C3625A37653E013E3998F825"
#define MOIRE_SHA_BW "DCB2BADC290A9E0A1DF0DEC45D3A653A40AF8B6B"
TEST test_hires_with_80col() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("PR#3\rRUN TESTHIRES_2\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
if (test_color_mode == COLOR_MODE_MONO) {
ASSERT_SHA(MOIRE_SHA_BW);
} else {
ASSERT_SHA(MOIRE_SHA);
}
PASS();
}
TEST test_hires_with_40col() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("RUN TESTHIRES_2\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
if (test_color_mode == COLOR_MODE_MONO) {
ASSERT_SHA(MOIRE_SHA_BW);
} else {
ASSERT_SHA(MOIRE_SHA);
}
PASS();
}
TEST test_hires_with_40col_page2() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("RUN TESTHIRES_PG2\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
if (test_color_mode == COLOR_MODE_MONO) {
WAIT_FOR_FB_SHA(MOIRE_SHA_BW);
} else {
WAIT_FOR_FB_SHA(MOIRE_SHA);
}
PASS();
}
TEST test_hires_40colmix_normal() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("POKE 7986,127\rRUN TESTHIRES\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
if (test_color_mode == COLOR_MODE_MONO) {
ASSERT_SHA("9611721C0F70C5F1FE0172534EC15B977CB099D4");
} else {
ASSERT_SHA("37F41F74EB23F8812498F732E6DA34A0EBC4D68A");
}
PASS();
}
TEST test_hires_40colmix_inverse() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("INVERSE\rPOKE 7986,127\rRUN TESTHIRES\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
if (test_color_mode == COLOR_MODE_MONO) {
ASSERT_SHA("5CFA5789735AD09FAB8CC7B6EE44CE22CF64A70D");
} else {
ASSERT_SHA("253D1823F5DAC0300B46B3D49C04CD59CC70076F");
}
PASS();
}
TEST test_hires_80colmix_normal() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("PR#3\rLOAD TESTHIRES\rLIST\rLIST\rPOKE 7986,127\rRUN\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
if (test_color_mode == COLOR_MODE_MONO) {
WAIT_FOR_FB_SHA("4069102016E4E6AA860A32C6BAC5E4A6C6A45B72");
} else {
WAIT_FOR_FB_SHA("8D02F9A7CFC7A7E6D836B01862389F55E877E4E6");
}
PASS();
}
TEST test_hires_80colmix_inverse() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("INVERSE\rPR#3\rLOAD TESTHIRES\rLIST\rLIST\rPOKE 7986,127\rRUN\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
if (test_color_mode == COLOR_MODE_MONO) {
WAIT_FOR_FB_SHA("C3C19FB3258E7A58F81BC3DC51C2AEDFFC836285");
} else {
#if !CONFORMANT_TRACKS
ASSERT_SHA("FAFBB65013DA3D5173487C3F434C36A7C04DE92E");
#endif
WAIT_FOR_FB_SHA("30C0329061781FD1BFE214940F9D5EDFA5FA5F08");
}
PASS();
}
// ----------------------------------------------------------------------------
// 80LORES & 80HIRES
//
TEST test_80col_lores() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("RUN TESTLORES80\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
if (test_color_mode == COLOR_MODE_MONO) {
ASSERT_SHA("D8238DC3ACC1A0E191CEC06F505A159993C2EBFA");
} else {
ASSERT_SHA("5BFF6721FB90B3A6AF88D9021A013C007C4AF23A");
}
PASS();
}
TEST test_80col_lores_2() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("RUN TESTLORES80_2\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
if (test_color_mode == COLOR_MODE_MONO) {
ASSERT_SHA("5B99DE77F81AD8718FCFB735215A37F7B5ED5DE7");
} else {
ASSERT_SHA("98BB7C04854594D9E709302EF29905D2A89F1D34");
}
PASS();
}
TEST test_80col_hires() {
BOOT_TO_DOS();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] != TEST_FINISHED);
test_type_input("RUN TESTHIRES80_2\r");
c_debugger_go();
ASSERT(apple_ii_64k[0][WATCHPOINT_ADDR] == TEST_FINISHED);
if (test_color_mode == COLOR_MODE_MONO) {
ASSERT_SHA("647F3A377513486121C7609E3F53E97DC6FC456D");
} else {
ASSERT_SHA("919EBCBABEA57E932F84E9864B2C35F57F8909B4");
}
PASS();
}
// ----------------------------------------------------------------------------
// Test Suite
GREATEST_SUITE(test_suite_display) {
pthread_mutex_lock(&interface_mutex);
test_thread_running = true;
typedef struct parms_t {
color_mode_t mode;
bool doReboot;
} parms_t;
static parms_t parmsArray[] = {
{ COLOR_MODE_COLOR, true },
{ COLOR_MODE_COLOR, false },
{ COLOR_MODE_MONO, true },
{ COLOR_MODE_MONO, false },
};
unsigned int count = sizeof(parmsArray)/sizeof(parmsArray[0]);
GREATEST_SET_SETUP_CB(testdisplay_setup, NULL);
GREATEST_SET_TEARDOWN_CB(testdisplay_teardown, NULL);
GREATEST_SET_BREAKPOINT_CB(test_breakpoint, NULL);
// TESTS --------------------------
#if VIDEO_TRACING && CONFORMANT_TRACKS
RUN_TESTp(test_boot_video_trace);
RUN_TESTp(test_video_trace_40col);
RUN_TESTp(test_video_trace_liltexwin);
#endif
// text modes
RUN_TESTp(test_40col_normal);
test_do_reboot = false;
RUN_TESTp(test_40col_normal);
test_do_reboot = true;
RUN_TESTp(test_80col_normal);
test_do_reboot = false;
RUN_TESTp(test_80col_normal);
test_do_reboot = true;
RUN_TESTp(test_40col_inverse);
test_do_reboot = false;
RUN_TESTp(test_40col_inverse);
test_do_reboot = true;
RUN_TESTp(test_80col_inverse);
test_do_reboot = false;
RUN_TESTp(test_80col_inverse);
test_do_reboot = true;
// lores
for (unsigned int i=0; i<count; i++) {
test_do_reboot = parmsArray[i].doReboot;
test_color_mode = parmsArray[i].mode;
RUN_TEST(test_lores_with_80col);
}
for (unsigned int i=0; i<count; i++) {
test_do_reboot = parmsArray[i].doReboot;
test_color_mode = parmsArray[i].mode;
RUN_TEST(test_lores_with_40col);
}
for (unsigned int i=0; i<count; i++) {
test_do_reboot = parmsArray[i].doReboot;
test_color_mode = parmsArray[i].mode;
RUN_TEST(test_lores_with_40col_2);
}
for (unsigned int i=0; i<count; i++) {
test_do_reboot = parmsArray[i].doReboot;
test_color_mode = parmsArray[i].mode;
RUN_TEST(test_lores_40colmix_normal);
}
for (unsigned int i=0; i<count; i++) {
test_do_reboot = parmsArray[i].doReboot;
test_color_mode = parmsArray[i].mode;
RUN_TEST(test_lores_40colmix_inverse);
}
for (unsigned int i=0; i<count; i++) {
test_do_reboot = parmsArray[i].doReboot;
test_color_mode = parmsArray[i].mode;
RUN_TEST(test_lores_80colmix_normal);
}
for (unsigned int i=0; i<count; i++) {
test_do_reboot = parmsArray[i].doReboot;
test_color_mode = parmsArray[i].mode;
RUN_TEST(test_lores_80colmix_inverse);
}
// hires
for (unsigned int i=0; i<count; i++) {
test_do_reboot = parmsArray[i].doReboot;
test_color_mode = parmsArray[i].mode;
RUN_TEST(test_hires_with_80col);
}
for (unsigned int i=0; i<count; i++) {
test_do_reboot = parmsArray[i].doReboot;
test_color_mode = parmsArray[i].mode;
RUN_TEST(test_hires_with_40col);
}
for (unsigned int i=0; i<count; i++) {
test_do_reboot = parmsArray[i].doReboot;
test_color_mode = parmsArray[i].mode;
RUN_TEST(test_hires_with_40col_page2);
}
for (unsigned int i=0; i<count; i++) {
test_do_reboot = parmsArray[i].doReboot;
test_color_mode = parmsArray[i].mode;
RUN_TEST(test_hires_40colmix_normal);
}
for (unsigned int i=0; i<count; i++) {
test_do_reboot = parmsArray[i].doReboot;
test_color_mode = parmsArray[i].mode;
RUN_TEST(test_hires_40colmix_inverse);
}
for (unsigned int i=0; i<count; i++) {
test_do_reboot = parmsArray[i].doReboot;
test_color_mode = parmsArray[i].mode;
RUN_TEST(test_hires_80colmix_normal);
}
for (unsigned int i=0; i<count; i++) {
test_do_reboot = parmsArray[i].doReboot;
test_color_mode = parmsArray[i].mode;
RUN_TEST(test_hires_80colmix_inverse);
}
// double-lo/hi
RUN_TEST(test_80col_lores);
test_color_mode = COLOR_MODE_MONO;
RUN_TEST(test_80col_lores);
RUN_TEST(test_80col_lores_2);
test_color_mode = COLOR_MODE_MONO;
RUN_TEST(test_80col_lores_2);
RUN_TEST(test_80col_hires);
test_color_mode = COLOR_MODE_MONO;
RUN_TEST(test_80col_hires);
// ...
disk6_eject(0);
pthread_mutex_unlock(&interface_mutex);
}
SUITE(test_suite_display);
GREATEST_MAIN_DEFS();
static char **test_argv = NULL;
static int test_argc = 0;
static int _test_thread(void) {
int argc = test_argc;
char **argv = test_argv;
GREATEST_MAIN_BEGIN();
RUN_SUITE(test_suite_display);
GREATEST_MAIN_END();
}
static void *test_thread(void *dummyptr) {
_test_thread();
return NULL;
}
void test_display(int _argc, char **_argv) {
test_argc = _argc;
test_argv = _argv;
test_common_init();
pthread_t p;
pthread_create(&p, NULL, (void *)&test_thread, (void *)NULL);
while (!test_thread_running) {
struct timespec ts = { .tv_sec=0, .tv_nsec=33333333 };
nanosleep(&ts, NULL);
}
pthread_detach(p);
}
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